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Separation and Purification Methods Volume 31, 2002 - Issue 1
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Original Articles

INNOVATIONS IN PALLADIUM MEMBRANE RESEARCH

S. N. Paglieri Los Alamos National Laboratory, Los Alamos, NM, 87545, U.S.A.Correspondence[email protected]
&
J. D. Way Colorado School of Mines, Golden, CO, 80401, U.S.A.
Pages 1-169 | Published online: 18 Aug 2006

REFERENCES

  • Lorimer , D. H. Method and Apparatus for Purifying Hydrogen Gas . US Patent 5,895,519 . Apr 20, 1999 .
  • Roberts , P. M. and Stiles , D. A. 1969 . Palladium alloy diffusion units . Platinum Met. Rev. , 13 ( 4 ) : 141
  • Hsiung , T. H. , Christman , D. D. , Hunter , E. J. and Homyak , A. R. 1999 . Methane formation on H2 purification using a commercial Pd–Ag membrane . AIChE J. , 45 ( 1 ) : 204
  • Gryaznov , V. M. 1969 . Catalysis on permselective membranes . Dokl. Akad. Nauk SSSR , 189 ( 4 ) : 755
  • Serfass , E. J. and Silman , H. 1965 . Hydrogen production and purification by the diffusion process . Chem. Eng. , 192 : CE266
  • Buxbaum , R. E. and Kinney , A. B. 1996 . Hydrogen transport through tubular membranes of palladium-coated tantalum and niobium . Ind. Eng. Chem. Res. , 35 : 530
  • Miyazaki , J. , Kajiyama , T. , Matsumoto , K. , Fujiwara , H. and Yatabe , M. 1996 . Ultra high purity hydrogen gas supply system with liquid hydrogen . Int. J. Hydrogen Energy , 21 ( 5 ) : 335
  • Lucht , J. and Hsiung , T. H.-L. Method and Apparatus for Making Ultra-pure Hydrogen . US Patent 5,955,044 . Sep 21, 1999 .
  • Cole , M. J. 1985 . The generation of pure hydrogen for industrial applications . Platinum Met. Rev. , 25 ( 1 ) : 12
  • Berkheimer , G. D. and Buxbaum , R. E. 1985 . Hydrogen pumping with palladium membranes . J. Vac. Sci. Technol., A , 3 ( 2 ) : 412
  • Bystritskii , V. M. , Dzhelepov , V. P. , Doronicheva , N. I. , Ermolov , P. F. , Oganesyan , K. O. , Omel'yanenko , M. N. , Porokhovoi , S. Y. , Rodina , A. A. , Teplov , V. E. and Fil'chenkov , V. V. 1972 . Installation for obtaining ultrapure gaseous hydrogen at a pressure of up to 50 atm . Instrum. Exp. Tech. (Prib. Tekh. Eksp.) , 15 ( 2 ) : 576
  • Sokolovskii , V. I. and Makarov , V. M. 1998 . Improvement of membrane devices for the production of superpure hydrogen . Chem. Pet. Eng. (Khim. Neftegazov. Mashinostr.) , 34 ( 5–6 ) : 357
  • Young , J. R. 1963 . Purity of hydrogen permeating through Pd, Pd-25% Ag, and Ni . Rev. Sci. Instrum. , 34 ( 8 ) : 891
  • Zetkin , A. S. , Guk , Y. N. , Kagan , G. E. and Levin , E. S. 1986 . High-vacuum setup with mass-spectrometric attachment for studying the behavior of hydrogen in metals and alloys . Ind. Lab. (Zavod. Lab.) , 52 ( 5 ) : 429
  • Lobashina , N. E. , Savvin , N. N. and Myasnikov , I. A. 1983 . Formation and transfer of hydrogen atoms from a metal activator onto the surface of the support (spillover effect) and into the gas phase . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 268 ( 6 ) : 104
  • Ketkar , S. N. and Martinez de Pinillos , J. V. 1993 . Calibrating APIMS for H2 Measurements Using a Palladium Purifier . 39th Annual Technical Meeting of the Institute of Environmental Sciences . May 2–7 1993 , Las Vegas , Nevada . pp. 50 Institute of Environmental Sciences .
  • Glazunov , G. P. , Volkov , E. D. and Baron , D. I. 1999 . Study of low hydrogen flows into high-vacuum systems . Int. J. Hydrogen Energy , 24 : 829
  • Brenna , J. T. , Tobias , H. J. and Goodman , K. J. Interface System for Isotopic Analysis of Hydrogen . US Patent 5,661,038 . Aug 26, 1997 .
  • Villa-Aleman , E. Analysis of Hydrogen Isotope Mixtures . US Patent 5,308,979 . May 3, 1994 .
  • Willms , R. S. , Birdsell , S. A. and Wilhelm , R. C. 1995 . Recent palladium membrane reactor development at the tritium systems test assembly . Fusion Technol. , 28 : 772
  • Willms , R. S. and Konishi , S. 1991 . Fuel cleanup systems for fusion fuel processing . Fusion Eng. Des. , 18 : 53
  • Willms , R. S. , Wilhelm , R. and Konishi , S. 1995 . Performance of a palladium membrane reactor using an Ni catalyst for fusion fuel impurities processing . Fusion Eng. Des. , 28 : 397
  • Obara , A. Tritium Recovery Apparatus . Japan Patent JP 63175627 . 1988 .
  • Willms , R. S. Method for Simultaneous Recovery of Hydrogen from Water and from Hydrocarbons . US Patent 5,525,322 . 1996 .
  • Konishi , S. , Yoshida , H. and Naruse , Y. 1983 . A design study of a palladium diffuser for a D–T fusion reactor fuel clean-up system . J. Less-Common Met. , 89 ( 2 ) : 457
  • Yamanishi , T. , Kawamura , Y. , Iwai , Y. , Arita , T. , Maruyama , T. , Kakuta , T. , Konishi , S. , Enoeda , M. , Ohira , S. , Hayashi , T. , Nakamura , H. , Kobayashi , K. , Tadokoro , T. , Nakamura , H. , Ito , T. , Yamada , M. , Suzuki , T. , Nishi , M. , Nagashima , T. and Ohta , M. 2000 . Development of a tritium fuel processing system using an electrolytic reactor for ITER . Nucl. Fusion , 40 ( 3Y ) : 515
  • Yamanishi , T. , Konishi , S. , Hayashi , T. , Kawamura , Y. , Iwai , Y. , Maruyama , T. , Kakuta , T. , O'hira , S. , Nakamura , H. , Kobayashi , K. , Nishi , M. , Nagashima , T. and Ohta , M. 1998 . Demonstration of the integrated fusion fuel loop at the tritium process laboratory of the Japan Atomic Energy Research Institute . Fusion Energy , 34 ( 3 ) : 536
  • Birdsell , S. A. and Willms , R. S. 1998 . Tritium recovery from tritiated water with a two-stage palladium membrane reactor . Fusion Eng. Des. , 39–40 : 1041
  • Kammermeyer , K. 1976 . Technical gas permeation processes . Chem.-Ing.-Tech. , 48 ( 8 ) : 672
  • Gryaznov , V. M. 2000 . Metal containing membranes for the production of ultrapure hydrogen and the recovery of hydrogen isotopes . Sep. Purif. Methods , 29 ( 2 ) : 171
  • Koros , W. J. and Mahajan , R. 2000 . Pushing the limits on possibilities for large scale gas separation: Which strategies? . J. Membr. Sci. , 175 : 181
  • Yang , W. and Xiong , G.-X. 1999 . Novel porous metal/ceramic membrane materials . Curr. Opin. Solid State Mater. Sci. , 4 : 103
  • 1992 . Catalyst-membrane systems using platinum metals . Mater. Des. , 13 ( 6 ) : 361
  • Govind , R. , Atnoor , D. and Zhao , R. 1991 . Future prospects and applications for metal based membranes . Key Eng. Mater. , 61 & 62 : 319
  • Zaman , J. and Chakma , A. 1994 . Inorganic membrane reactors . J. Membr. Sci. , 92 : 1
  • Wise , E. M. 1968 . Palladium—Recovery, Properties and Uses New York : Academic Press .
  • Baranov , Y. M. , Stolyarova , L. V. , Shopshin , M. F. , Melik-Akhnazarov , T. K. and Aleksashkina , T. S. 1992 . Modern processes of hydrogen recovery from refinery gas . Chem. & Technol. of Fuels and Oils (Khim. Tekhnol. Topl. Masel) , 27 ( 5 ) : 285
  • Tsapatsis , M. , Gavalas , G. R. and Xomeritakis , G. 2000 . Recent Advances in Gas Separation by Microporous Ceramic Membranes , Membrane Science and Technology Series Edited by: Kanellopous , N. K. Vol. 6 , 397 New York : Elsevier .
  • Lewis , F. A. 1967 . The Palladium Hydrogen System London : Academic Press .
  • Latyshev , V. V. and Bystritskiy , V. M. 1991 . Interaction of hydrogen isotopes and diffusion membranes made from palladium alloys . Phys. Met. Metallogr. , 71 ( 6 ) : 1
  • Ilias , S. and Govind , R. 1989 . Development of high temperature membranes for membrane reactor: An overview . AIChE Symp. Ser. , 268 ( 85 ) : 18
  • Guy , C. 1992 . Membrane reactors: Possibilities of application in the petroleum and petrochemical industry . Rev. Inst. Fr. Pet. , 47 ( 1 ) : 133
  • Hägg , M.-B. 1998 . Membranes in chemical processing . Sep. Purif. Methods , 27 ( 1 ) : 51
  • Gryaznov , V. M. 1992 . Platinum metals as components of catalyst-membrane systems . Platinum Met. Rev. , 36 ( 2 ) : 70
  • Grashoff , G. J. , Pilkington , C. E. and Corti , C. W. 1983 . The purification of hydrogen: A review of the technology emphasising the current status of palladium membrane diffusion . Platinum Met. Rev. , 27 : 157
  • Gobina , E. 1997 . Multifunctionality in chemical reactors incorporating high-temperature membrane technology . Membr. Technol. , 86 : 8
  • Doyle , M. L. 1996 . World hydrogen energy conference: Platinum metals in developing hydrogen technologies . Platinum Met. Rev. , 40 ( 4 ) : 175
  • Doyle , M. L. 1993 . Membrane catalysis and the platinum group metals . Platinum Met. Rev. , 37 ( 3 ) : 153
  • Coronas , J. and Santamaría , J. 1999 . Catalytic reactors based on porous ceramic membranes . Catal. Today , 51 : 377
  • Doyle , M. L. 1993 . A selective review of metal-hydrogen technology in the former U.S.S.R. . Platinum Met. Rev. , 37 ( 2 ) : 97
  • Hsieh , H. P. 1988 . Inorganic membrane reactors . AIChE Symp. Ser. , 261 ( 84 ) : 1
  • Mordkovich , V. Z. , Baichtock , Y. K. and Sosna , M. H. 1993 . The large-scale production of hydrogen from gas mixtures: A use for ultra-thin palladium alloy membranes . Int. J. Hydrogen Energy , 18 ( 7 ) : 539
  • Ma , Y. H. 1999 . Dense palladium and perovskite membranes and membrane reactors . MRS Bull. , 24 ( 3 ) : 46
  • Kikuchi , E. 1997 . Hydrogen-permselective membrane reactors . CATTECH , 1 ( 1 ) : 67
  • Saracco , G. , Neomagus , H.W.J. P. , Versteeg , G. F. and van Swaaij , W.P. M. 1999 . High-temperature membrane reactors: Potential and problems . Chem. Eng. Sci. , 54 : 1997
  • Saracco , G. and Specchia , V. 1994 . Catalytic inorganic-membrane reactors: Present experience and future opportunities . Catal. Rev.-Sci. Eng. , 36 ( 2 ) : 305
  • Shu , J. , Grandjean , B.P. A. , Van Neste , A. and Kaliaguine , S. 1991 . Catalytic palladium-based membrane reactors: A review . Can. J. Chem. Eng. , 69 ( 5 ) : 1036
  • Gryaznov , V. 1999 . Membrane catalysis . Catal. Today , 51 : 391
  • Gryaznov , V. M. 1982 . Palladium and its alloys as membrane catalysts . Kinet. Catal. , 23 ( 6 ) : 1151
  • Gryaznov , V. M. 1986 . Hydrogen permeable palladium membrane catalysts . Platinum Met. Rev. , 30 ( 2 ) : 68
  • Gryaznov , V. M. , Mikhalenko , N. N. and Tarasova , V. E. 1985 . The recovery of hydrogen from industrial gas mixtures by means of palladium alloy membranes . Russ. J. Phys. Chem. , 59 ( 10 ) : 1534
  • Gryaznov , V. M. , Serebryannikova , O. S. , Serov , Y. M. , Ermilova , M. M. , Karavanov , A. N. , Mischenko , A. P. and Orekhova , N. V. 1993 . Preparation and catalysis over palladium composite membranes . Appl. Catal. A , 96 ( 1 ) : 15
  • Hsieh , H. P. 1989 . Inorganic membrane reactors—a review . AIChE Symp. Ser. , 268 ( 85 ) : 53
  • Saracco , G. , Versteeg , G. F. and van Swaaij , W.P. M. 1994 . Current hurdles to the success of high-temperature membrane reactors . J. Membr. Sci. , 95 : 105
  • Uemiya , S. 1999 . State-of-the-art of supported metal membranes for gas separation . Sep. Purif. Methods , 28 ( 1 ) : 51
  • Armor , J. N. 1989 . Catalysis with permselective inorganic membranes . Appl. Catal. , 49 : 1
  • Armor , J. N. 1992 . Challenges in membrane catalysis . CHEMTECH , 22 : 557
  • Armor , J. N. 1995 . Membrane catalysis: Where is it now, what needs to be done? . Catal. Today , 25 ( 3–4 ) : 199
  • Armor , J. N. 1998 . Applications of catalytic inorganic membrane reactors to refinery products . J. Membr. Sci. , 147 : 217
  • Armor , J. N. 1999 . The multiple roles for catalysis in the production of H2 . Appl. Catal. A , 176 ( 2 ) : 159
  • Sherwood , T. K. Hydrogen Separation Apparatus . US Patent 3,407,571 . 1968 .
  • Straschil , H. K. and Lopez , T. C. Diffusion Purification of Gases . US Patent 3,238,703 . 1966 .
  • Najjar , M. S. , Dorawala , T. G. and Koturk , U. Membrane and Separation Process . US Patent 5,358,553 . Oct. 25, 1994 .
  • Jain , R. and Whitlock , W. H. Recovery of Noble Gases . EP Patent 0826629 . 1998 .
  • Davidson , A. P. Membranes . WO Patent 9009231 . Aug 23, 1990 .
  • Sakai , N. O. , Takahashi , C. T. , Abe , T. K. and Fujii , N. T. Connected Body Comprising a Gas Separator and a Metal, and Apparatus for Separating Hydrogen Gas from a Mixed Gas . US Patent 5,518,530 . May 21, 1996 .
  • Foley , R. J. and Snuttjer , O. R. Generator Hydrogen Purge Gas Economizer with Membrane Filter . US Patent 6,126,726 . Oct 3, 2000 .
  • Ramachandran , R. and Menon , R. K. 1998 . An overview of industrial uses of hydrogen . Int. J. Hydrogen Energy , 23 ( 7 ) : 593
  • Docekal , J. 1986 . Hydrogen production from hydrocarbons . Int. J. Hydrogen Energy , 11 ( 11 ) : 709
  • Philpott , J. E. 1985 . Hydrogen diffusion technology: Commercial applications of Pd membranes . Platinum Met. Rev. , 29 ( 1 ) : 12
  • Scholz , W. H. 1993 . Processes for industrial producation of hydrogen and associated environmental effects . Gas Sep. Purif. , 7 ( 3 ) : 131
  • Matlack , G. L. 1969 . A fully integrated hydrogen diffusion system . Platinum Met. Rev. , 13 ( 1 ) : 26
  • 1964 . Production of ultra-pure hydrogen . Platinum Met. Rev. , 8 ( 3 ) : 91
  • Matlack , G. L. 1964 . Ultrapure hydrogen in metal processing . Met. Prog. , 85 ( 3 ) : 114
  • Adris , A. M. , Pruden , B. B. , Lim , C. J. and Grace , J. R. 1996 . On the reported attempts to radically improve the performance of the steam methane reforming reactor . Can. J. Chem. Eng. , 74 : 177
  • Philpott , J. E. 1976 . The on-site production of hydrogen . Platinum Met. Rev. , 20 ( 4 ) : 110
  • 1982 . Catalytic hydrogen . Processing , 28 ( October ) : 47
  • Aasberg-Petersen , K. , Nielsen , C. S. and Jørgensen , S. L. 1998 . Membrane reforming for hydrogen . Catal. Today , 46 : 193
  • Cox , K. E. 1978 . Irreversibility Analysis of Hydrogen Separation Schemes in Thermochemical Cycles . Proc. 2nd World Hydrogen Energy Conf. 1978 , Zurich , Switzerland. Edited by: Veziroglu , T. N. and Seifritz , W. pp. 471 Elmsford , New York : Pergamon Press .
  • Meindersma , G. W. and Kuczynski , M. 1996 . Implementing membrane technology in the process industry: Problems and opportunities . J. Membr. Sci. , 113 : 285
  • Athayde , A. L. , Baker , R. W. and Nguyen , P. 1994 . Metal composite membranes for hydrogen separation . J. Membr. Sci. , 94 : 299
  • Ho , W.S. W. and Sirkar , K. K. 1992 . Membrane Handbook New York : Van Nostrand Reinhold .
  • Mordkovich , V. Z. , Baichtock , Y. K. and Sosna , M. H. 1992 . The large scale production of hydrogen from gas mixtures . Platinum Met. Rev. , 36 ( 2 ) : 90
  • Fleming , G. K. and Dupuis , G. E. 1993 . Hydrogen membrane recovery estimates . Hydrocarbon Process. , 72 ( April ) : 61
  • McBride , R. B. and McKinley , D. L. 1965 . A new hydrogen recovery route . Chem. Eng. Prog. , 61 ( 3 ) : 81
  • McCaffrey , R. R. , McAtee , R. E. , Grey , A. E. , Allen , C. A. , Cummings , D. G. , Appelhans , A. D. , Wright , R. B. and Jolley , J. G. 1987 . Inorganic membrane technology . Sep. Sci. Technol. , 22 ( 2 and 3 ) : 873
  • Labrune , D. , Limacher , B. , Guidon , H. and Moll , G. 1995 . Separation of hydrogen isotopes from nitrogen with polyimide membrane . Fusion Technol. , 28 : 676
  • Britan , L. M. and Leites , I. L. 1990 . Analysis of the efficiency of various designs of membrane gas separation units . Sov. Chem. Ind. (Khim. Prom-st.) , 22 ( 10 ) : 61
  • Buxbaum , R. E. and Marker , T. L. 1993 . Hydrogen transport through non-porous membranes of palladium-coated niobium, tantalum and vanadium . J. Membr. Sci. , 85 : 29
  • Pallegedara , A. B. , Gul'yanova , S. G. , Gryaznov , V. M. , Vedernikov , V. I. and Starkovskii , N. I. 1995 . Mutual influence of ethylene and ammonia on their adsorption and on the efficiency of oxidation by oxygen diffusion through silver . Russ. J. Phys. Chem. , 69 ( 9 ) : 1493
  • Pallegedara , A. B. , Gul'yanova , S. G. , Vedernikov , V. I. , Gryaznov , V. M. and Starkovkskii , N. I. 1994 . Oxygen permeability of thin silver membranes: III. Oxidation of ammonia on a silver membrane catalyst . Chem. Kinet. Catal. , 68 ( 5 ) : 805
  • Mullhaupt , J. T. Oxygen Permeable Membranes . US Patent 3,359,705 . 1967 .
  • Wu , D. , Outlaw , R. A. and Ash , R. L. 1993 . Glow-discharge enhanced permeation of oxygen through silver . J. Appl. Phys. , 74 ( 8 ) : 4990
  • Vedernikov , V. I. , Gul'yanova , S. G. and Gryaznov , V. M. 1984 . Reactions of ammonia and of ethanol vapour with oxygen diffusing through a silver membrane catalyst . Russ. J. Phys. Chem. , 58 ( 1 ) : 155
  • Nogerbekov , B. Y. , Fogel' , L. A. and Sokol'skii , D. V. 1988 . The mechanism of the hydrogenation of benzoquinone on a palladium–silver membrane catalyst . Russ. J. Phys. Chem. , 62 ( 7 ) : 1006
  • Gul'yanova , S. G. , Gryaznov , V. M. , Yagodovskii , V. D. , Gakhardo , P. , Suluarivelo , L. and Rusinova , G. V. 1977 . Adsorption and oxidation of piperylene on silver . Kinet. Catal. , 18 ( 1 ) : 160
  • Gul'yanova , S. G. , Kolosov , E. N. , Starkovskii , N. I. , Vedernikov , V. I. and Gryaznov , V. M. 1989 . Oxygen permeability of thin silver membranes. II. Effect of the adsorption of toluene on the transport of oxygen through silver . Russ. J. Phys. Chem. , 63 ( 10 ) : 1478
  • Gul'yanova , S. G. , Vedernikov , V. I. and Gryaznov , V. M. 1977 . The permeability to oxygen of a silver membrane with a layer of silver on its outlet surface . Russ. J. Phys. Chem. , 51 ( 1 ) : 98
  • Gryaznov , V. M. , Vedernikov , V. I. and Gul'yanova , S. G. 1986 . Participation of oxygen, having diffused through a silver membrane catalyst, in heterogeneous oxidation processes . Kinet. Catal. , 27 ( 1 ) : 129
  • Gryaznov , V. M. , Smirnov , V. S. , Gul'yanova , S. G. and Ermilova , M. M. 1976 . Conversions of ethylene on a silver membrane catalyst . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 25 ( 3 ) : 490
  • Anshits , A. G. , Shigapov , A. N. , Vereshchagin , S. N. and Shevnin , V. N. 1989 . Oxidative conversion of methane into C2 hydrocarbons on silver membrane catalysts . Kinet. Catal. , 30 ( 5 ) : 1103
  • Kurina , L. N. , Plakidkin , A. A. , Gul'yanova , S. G. , Vedernikov , V. I. and Gryaznov , V. M. 1985 . The combined oxidation of methanol and ethanol on silver catalysts . Dokl. Akad. Nauk SSSR , 281 ( 4 ) : 358
  • Gryaznov , V. M. , Gul'yanova , S. G. and Serov , Y. M. 1989 . The role of the adsorbed forms of hydrogen and oxygen in the reaction of oxygen-containing one-carbon molecules on membrane catalysts . Russ. Chem. Rev. (Usp. Khim.) , 58 ( 1 ) : 35
  • Kolosov , E. N. , Gryaznov , V. M. and Starkovskii , N. I. 1977 . Mass-spectrometric study of the permeation of oxygen through a silver membrane catalyst during oxidation reactions . Russ. J. Phys. Chem. , 51 ( 9 ) : 1318
  • Yan , Y. , Davis , M. E. and Gavalas , G. R. 1995 . Preparation of zeolite ZSM-5 membranes by in-situ crystallization of porous α-Al2O3 . Ind. Eng. Chem. Res. , 34 : 1652
  • Tsapatsis , M. and Gavalas , G. R. 1999 . Synthesis of porous inorganic membranes . MRS Bull. , 24 ( 3 ) : 30
  • Schwartz , R. W. , Collins , J. P. , Ng , M. F. , Brinker , C. J. , Ward , T. L. , Sehgal , R. , Xia , C. , Udovich , C. A. , Masin , J. and Hagen , G. P. 1997 . “ Inorganic Membrane Reactor Technology CRADA #1176 ” . In Final Report and Assessment of Membrane Technology, SAND97-0949 Sandia National Laboratory .
  • Ostrowski , T. , Giroir-Fendler , A. , Mirodatos , C. and Mleczko , L. 1998 . Comparative study of the partial oxidation of methane to synthesis gas in fixed-bed and fluidized-bed membrane reactors. Part II—development of membranes and catalytic measurements . Catal. Today , 40 : 191
  • Casanave , D. , Ciavarella , P. , Fiaty , K. and Dalmon , J.-A. 1999 . Zeolite membrane reactor for isobutane dehydrogenation: Experimental results and theoretical modelling . Chem. Eng. Sci. , 54 : 2807
  • Ciavarella , P. , Moueddeb , H. , Miachon , S. , Fiaty , K. and Dalmon , J.-A. 2000 . Experimental study and numerical simulation of hydrogen/isobutane permeation and separation using MFI-zeolite membrane reactor . Catal. Today , 56 : 253
  • Geus , E. R. , den Exter , M. J. and van Bekkum , H. 1992 . Synthesis and characterization of zeolite (MFI) membranes on porous ceramic supports . J. Chem. Soc., Faraday Trans. , 88 ( 20 ) : 3101
  • Noble , R. and Falconer , J. 1995 . Silicalite-1 zeolite composite membranes . Catal. Today , 25 ( 3–4 ) : 209
  • Thomas , C. E. , Kuhn , I. F. Jr. , James , B. D. , Lomax , F. D. Jr. and Baum , G. N. 1998 . Affordable hydrogen supply pathways for fuel cell vehicles . Int. J. Hydrogen Energy , 23 ( 6 ) : 507
  • Hughes , R. C. , Schubert , W. K. and Buss , R. J. 1995 . Solid-state hydrogen sensors using palladium–nickel alloys: Effect of alloy composition on sensor response . J. Electrochem. Soc. , 142 ( 1 ) : 249
  • Ali , J. K. and Baiker , A. 1995 . Measuring conversion in dehydrogenation reactions with the aid of a Pd–Ag membrane . Ind. Eng. Chem. Res. , 34 : 3166
  • Juda , W. and Frant , M. S. Method of Operating a Fuel Cell Comprising a Hydrogen Diffusion Otherwise Impermeable Anode . US Patent 3,423,244 . Jan. 21, 1969 .
  • Hartner , A. J. and Vertes , M. A. Fuel Cell Comprising a Hydrogen Diffusion Anode Having Two Layers of Dissimilar Metals and Method of Operating Same . US Patent 3,393,098 . Jul. 16, 1968 .
  • Oswin , H. G. Non-porous Hydrogen Diffusion Fuel Cell Electrodes . US Patent 3,092,517 . 1963 .
  • Oswin , H. G. and Chodosh , S. M. 1965 . Nonporous Hydrogen Depolarized Anode for Fuel Cells , Advances in Chemistry Series Edited by: Young , G. J. and Linden , H. R. Vol. 47 , 61 New York : American Chem. Soc .
  • Otero , T. F. and Bireben , M. T. 1997 . Hydrogen Electrode for Fuel Cell . 2nd Intl. Symp. on New Materials for Fuel Cells and Modern Battery . July 6–10 1997 , Montreal , Quebec, Canada. Edited by: Savadogo , O. and Roberge , P. R. pp. 894 Montreal : Ecole Polytech .
  • Hockaday , R. 1998 . Small compact and portable fuel cell systems . Platinum Met. Rev. , 42 ( 3 ) : 115
  • Hockaday , R. G. Surface Replica Fuel Cell for Micro Fuel Cell Electrical Power Pack . US Patent 5,759,712 . 1998 .
  • Greene , N. D. and Cleary , H. J. Fuel Cells: Palladium Hydrogen Diffusion Electrode . US Patent 3,497,390 . Feb. 24, 1970 .
  • Kordesch , K. 1990 . The advancement of fuel cell systems and spin-off battery technology . Ber. Bunsen-Ges. , 94 : 902
  • Connor , H. 1962 . Palladium alloy diffusion cells . Platinum Met. Rev. , 6 ( 4 ) : 130
  • Brogden , D. Method of Making a Thin Gas Diffusion Membrane . US Patent 3,505,180 . Apr. 7, 1970 .
  • Antler , M. 1987 . The development and application of palladium contact materials . Platinum Met. Rev. , 31 ( 1 ) : 13
  • Fleischmann , M. and Pons , S. 1989 . Electrochemically induced nuclear fusion of deuterium . J. Electroanal. Chem. , 261 : 301
  • Gryaznov , V. M. 1996 . Contribution of A.V. Frost to the investigation of catalytic processes of hydro- and dehydrogenation . Russ. J. Phys. Chem. , 70 ( 9 ) : 1443
  • Graham , T. 1866 . Absorption and separation of gases by colloid septa . Philos. Trans. R. Soc. , 156 ( 399 ) : 426
  • Darling , A. S. 1958 . The diffusion of hydrogen through palladium . Platinum Met. Rev. , 2 ( 1 ) : 16
  • Snelling , W. O. Apparatus for Separating Gases . US Patent 1,174,631 . Mar. 7, 1916 .
  • Hunter , J. B. Large Surface Area Hydrogen Permeation Cell . US Patent 2,961,062 . Nov. 22, 1960 .
  • DeRosset , A. J. 1960 . Diffusion of hydrogen through palladium membranes . Ind. Eng. Chem. , 52 ( 6 ) : 525
  • Darling , A. S. 1963 . Thermal and electrolytic palladium alloy diffusion cells: Complementary methods of obtaining ultra-pure hydrogen . Platinum Met. Rev. , 7 ( 4 ) : 126
  • Cohn , J.G. E. Hydrogen Diffusion Process . US Patent 3,238,700 . Mar. 8, 1966 .
  • Ackerman , F. J. and Koskinas , G. J. 1972 . A model for predicting the permeation of hydrogen–deuterium–inert gas mixtures through palladium tubes . Ind. Eng. Chem. Fundam. , 11 ( 3 ) : 332
  • Grashoff , C. J. , Pilkington , C. E. and Court , C. W. 1960 . The purification of hydrogen . Platinum Met. Rev. , 4 : 130
  • Hunter , J. B. 1963 . Ultra-pure hydrogen by diffusion through palladium . Abstr. Pap.-Am. Chem. Soc. , 145 : 12S
  • Anonymous . 1962 . Palladium alloy diffusion process for hydrogen purification . Platinum Met. Rev. , 6 ( 2 ) : 47
  • Hunter , J. B. Silver–Palladium Film for Separation and Purification of Hydrogen . US Patent 2,773,561 . Dec. 11, 1956 .
  • Cohn , G. and Straschil , H. K. 1963 . The role of platinum metals in the purification of hydrogen . Abstr. Pap.-Am. Chem. Soc. , 145 : 11S
  • King , L.D. P. , Baker , C. P. and Schreiber , R. E. Hydrogen Purification System . US Patent 2,536,610 . Jan. 2, 1951 .
  • Gol'tsov , V. A. , Kagan , G. E. and Gel'd , P. V. 1971 . Apparatus for the study of coefficients of diffusion, penetrability, and solubility of hydrogen and deuterium in metals (exchange of experience) . Ind. Lab. (Zavod. Lab.) , 37 ( 6 ) : 949
  • Betteridge , W. H. and Hope , J. 1975 . The separation of hydrogen from gas mixtures . Platinum Met. Rev. , 19 : 50
  • Raich , B. A. and Foley , H. C. 1995 . Supra-equilibrium conversion in palladium membrane reactors: Kinetic sensitivity and time dependence . Appl. Catal. A , 129 : 167
  • Mohan , K. and Govind , R. 1988 . Analysis of equilibrium shift in isothermal reactors with a permselective wall . AIChE J. , 34 ( 9 ) : 1493
  • Mohan , K. and Govind , R. 1988 . Effect of temperature on equilibrium shift in reactors with a permselective wall . Ind. Eng. Chem. Res. , 27 : 2064
  • Wood , B. J. 1968 . Dehydrogenation of cyclohexane on a hydrogen-porous membrane . J. Catal. , 11 : 30
  • Wood , B. J. and Wise , H. 1966 . The role of adsorbed hydrogen in the catalytic hydrogenation of cyclohexene . J. Catal. , 5 ( 1 ) : 135
  • Gryaznov , V. M. 1963 . Mechanism of the catalytic redistribution of hydrogen in unsaturated cyclic hydrocarbons . Russ. Chem. Rev. (Usp. Khim.) , 32 ( 4 ) : 188
  • Gryaznov , V. M. 1971 . Conjugation of reactions using membrane catalysts . Kinet. Catal. , 12 ( 3 ) : 564
  • Gryaznov , V. M. and Smirnov , V. S. 1974 . The reactions of hydrocarbons on membrane catalysts . Russ. Chem. Rev. (Usp. Khim.) , 43 ( 10 ) : 821
  • Gryaznov , V. M. , Smirnov , V. S. , Ivanov , L. K. and Mishchenko , A. P. 1970 . Coupling of reactions promoted by hydrogen transfer through the catalyst . Dokl. Akad. Nauk SSSR , 190 ( 1 ) : 144
  • Pfefferle , W. C. Process for Dehydrogenation . US Patent 3,290,406 . Dec. 6, 1966 .
  • Basov , N. L. and Gryaznov , V. M. 1987 . Dehydrogenation of cyclohexanol and hydrogenation of phenol into cyclohexanone on a membrane catalyst produced from a palladium–ruthenium alloy . Chem. Abstr. , 107 : 236107u
  • Li , J. , Mau , A. W.-H. and Strauss , C. R. 1997 . The use of palladium on porous glass for catalytic coupling reactions . Chem. Commun. , 14 : 1275
  • Gryaznov , V. M. , Smirnov , V. S. and Slin'ko , M. G. 1981 . The development of catalysis by hydrogen-porous membranes . Stud. Surf. Sci. Catal. , 7A : 224
  • Moustafa , T. M. and Elnashaie , S.S.E. H. 2000 . Simultaneous production of styrene and cyclohexane in an integrated membrane reactor . J. Membr. Sci. , 178 : 171
  • Orekhova , N. V. , Basov , N. L. , Ermilova , M. M. and Gryzanov , V. M. 1993 . Conjugation of reactions producing and consuming hydrogen on catalyst-membrane systems . Russ. J. Phys. Chem. , 68 ( 12 ) : 1944
  • Itoh , N. and Wu , T.-H. 1997 . An adiabatic type of palladium membrane reactor for coupling endothermic and exothermic reactions . J. Membr. Sci. , 124 : 213
  • Kikuchi , E. 1995 . Palladium/ceramic membranes for selective hydrogen permeation and their application to membrane reactor . Catal. Today , 25 ( 3–4 ) : 333
  • Uemiya , S. , Koike , I. and Kikuchi , E. 1991 . Promotion of the conversion of propane to aromatics by use of a palladium membrane . Appl. Catal. , 76 : 171
  • Chmielewski , D. , Ziaka , Z. and Manousiouthakis , V. 1999 . Conversion targets for plug flow membrane reactors . Chem. Eng. Sci. , 54 : 2979
  • Madia , G. S. , Barbieri , G. and Drioli , E. 1999 . Theoretical and experimental analysis of methane steam reforming in a membrane reactor . Can. J. Chem. Eng. , 77 ( 4 ) : 698
  • Abdalla , B. K. and Elnashaie , S.S.E. H. 1993 . A membrane reactor for the production of styrene from ethylbenzene . J. Membr. Sci. , 85 : 229
  • Abdalla , B. K. and Elnashaie , S.S.E. H. 1994 . Catalytic dehydrogenation of ethylbenzene to styrene in membrane reactors . AIChE J. , 40 ( 12 ) : 2055
  • Abdalla , B. K. and Elnashaie , S.S.E. H. 1995 . Fluidized bed reactors without and with selective membranes for the catalytic dehydrogenation of ethylbenzene to styrene . J. Membr. Sci. , 101 : 31
  • Uemiya , S. , Sato , N. , Ando , H. , Kude , Y. , Matsuda , T. and Kikuchi , E. 1991 . Separation of hydrogen through palladium thin film supported on a porous glass tube . J. Membr. Sci. , 56 : 303
  • Uemiya , S. , Kude , Y. , Sugino , K. , Sato , N. , Matsuda , T. and Kikuchi , E. 1988 . A palladium/porous-glass composite membrane for hydrogen separation . Chem. Lett. , : 1687
  • Kikuchi , H. Medium for Separating Hydrogen . JP Patent 62273029 . 1987 .
  • Kikuchi , H. Preparation of Hydrogen Separating Medium . JP Patent 62273030 . 1987 .
  • Kikuchi , H. Film for Separating Hydrogen and Production thereof . JP Patent 63294925 . 1988 .
  • Uemiya , S. , Sato , N. , Ando , H. , Matsuda , T. and Kikuchi , E. 1991 . Steam reforming of methane in a hydrogen-permeable membrane reactor . Appl. Catal. , 67 : 223
  • Uemiya , S. , Matsuda , T. and Kikuchi , E. 1991 . Hydrogen permeable palladium–silver alloy membrane supported on porous ceramics . J. Membr. Sci. , 56 : 315
  • Uemiya , S. , Matsuda , T. and Kikuchi , E. 1990 . Aromatization of propane assisted by palladium membrane reactor . Chem. Lett. , : 1335
  • Uemiya , S. , Sato , N. , Ando , H. and Kikuchi , E. 1991 . The water gas shift reaction assisted by a palladium membrane reactor . Ind. Eng. Chem. Res. , 30 : 585
  • Uemiya , S. , Sasaki , H. , Matsuda , T. and Kikuchi , E. 1990 . Preparation of thin palladium films by use of an electroless plating technique . J. Chem. Soc. Jpn. (Nippon Kagaku Kaishi) , 6 : 669
  • Abe , F. Separating Membrane of Hydrogen Gas . JP Patent 62121616 . 1987 .
  • Swanson , M. L. 1995 . Energy and Environmental Research Emphasizing Low-rank Coal-task 3.10: Gas Separation and Hot-gas Cleanup, DE-FC21-93MC30097 DOE .
  • Hurley , J. P. and McCollor , D. P. 1997 . Materials for Gas Separation and Hydrogen Separation Membranes: Semi-annual Report, DE00001680 Morgantown , West Virginia, US: Energy and Environmental Res. Cntr., Grand Forks, North Dakota, US : Federal Energy Technology Center (FETC) .
  • Damle , A. S. , Lau , K. H. , Wood , B. J. , Sanjurjo , A. and Krishnan , G. N. 1995 . Thermal and Chemical Degradation of Inorganic Membrane Materials, DE96000598 Menlo Park , California, US : SRI International .
  • Edlund , D. , Friesen , D. , Hohnson , B. and Pledger , W. 1994 . Hydrogen-permeable metal membranes for high-temperature gas separations . Gas Sep. Purif. , 8 ( 3 ) : 131
  • Dowdy , T. E. Coal Gasification and Hydrogen Production System and Method . US Patent 5,955,039 . Sep. 21, 1999 .
  • Kikuchi , E. 2000 . Membrane reactor application to hydrogen production . Catal. Today , 56 ( 1–3 ) : 97
  • Ohta , Y. , Gondaira , M. , Kobayashi , K. , Fujimoto , Y. and Kuroda , K. 1994 . Study on the performance of a steam reformer of town gas equipped with palladium membrane . AIChE Annual Meeting, San Francisco , 198 ( 76i )
  • Dye , R. C. , Birdsell , S. A. , Snow , R. C. , Moss , T. S. and Peachey , N. 1997 . Advancing the Technology Base for High-temperature Membranes, DE98000093 Los Alamos , New Mexico, US : Los Alamos National Laboratory .
  • Yeung , K. L. , Aravind , R. , Szegner , J. and Varma , A. 1996 . Metal composite membranes: Synthesis, characterization and reaction studies . Stud. Surf. Sci. Catal. , 101 : 1349
  • Collins , J. P. , Schwartz , R. W. , Sehgal , R. , Ward , T. L. , Brinker , C. J. , Hagen , G. P. and Udovich , C. A. 1996 . Catalytic dehydrogenation of propane in hydrogen permselective membrane reactors . Ind. Eng. Chem. Res. , 35 ( 12 ) : 4398
  • Foley , H. C. , Wang , A. W. , Johnson , B. and Armor , J. N. 1993 . Effect of a model hydrogenation on a catalytic palladium membrane . ACS Symp. Ser. , 517 : 168
  • Völkl , J. and Alefeld , G. 1978 . “ Hydrogen in Metals—II ” . In Topics in Applied Physics Vol. 29 , New York : Springer-Verlag .
  • Alefeld , G. and Völkl , J. , eds. 1978 . Hydrogen in Metals I: Basic Properties Vol. 28 , New York : Springer-Verlag .
  • Timofeyev , N. I. , Berseneva , F. N. and Gromov , V. I. 1981 . Changes in the mechanical properties of palladium and its alloys with silver on exposure to hydrogen . Phys. Met. Metallogr. , 51 ( 2 ) : 159
  • Gol'tsov , V. A. , Timofeev , N. I. , Kagan , G. E. , Aizenbud , M. B. and Baichtok , Y. K. 1973 . Hydrogen permeability and hydrogen resistance of some palladium alloys . Sov. Mater. Sci. (Fiz.-Khim. Mekh. Mater.) , 9 ( 5 ) : 534
  • Maruno , T. , Tsuji , H. and Otsuka , R. 1983 . Hydrogen embrittlement of Pd–Ag binary alloys . J. Jpn. Inst. Met. , 47 ( 9 ) : 768
  • Feenstra , R. , de Groot , D. G. , Griessen , R. , Burger , J. P. and Menovski , A. 1987 . Absorption of hydrogen in Pd–Co and Pd–U alloys . J. Less-Common Met. , 130 : 375
  • Maeland , A. and Flanagan , T. B. 1964 . Lattice constants and thermodynamic parameters of the hydrogen–platinum–palladium and deuterium–platinum–palladium systems . J. Phys. Chem. , 68 ( 6 ) : 1419
  • Roshan , N. R. , Parfenova , N. L. , Polyskova , V. P. , Savitsky , E. M. , Mischenko , A. P. , Gryaznov , V. M. and Sarylova , M. E. Palladium-based Alloy . US Patent 4,489,039 . Dec. 18, 1984 .
  • Lewis , F. A. 1993 . Hydrogen interstitial structures in palladium–silver membranes . Platinum Met. Rev. , 37 ( 4 ) : 220
  • Gryaznov , V. M. , Mishchenko , A. P. , Polyakova , V. P. , Roshan , N. R. , Savitskii , E. M. , Smirnov , V. S. , Khrapova , E. V. and Shimulis , V. I. 1973 . Palladium–ruthenium alloys as membrane catalysts . Dokl. Akad. Nauk SSSR , 211 ( 3 ) : 604
  • Cabrera , A. L. , Morales L. , E. , Hasen , J. and Schuller , I. K. 1995 . Structural changes induced by hydrogen absorption in palladium and palladium–ruthenium alloys . Appl. Phys. Lett. , 66 ( 10 ) : 1216
  • Cabrera , A. L. , Morales-Leal , E. , Hasen , J. and Schuller , I. K. 1995 . Changes in crystallographic orientation of thin foils of palladium and palladium alloys after the absorption of hydrogen . Catal. Lett. , 30 : 11
  • Darling , A. S. 1965 . Trennung und Reinigung von Wasserstoff durch Permeation an Membranen aus Palladium–Legierungen . Chem.-Ing.-Tech. , 37 ( 1 ) : 18
  • Musket , R. G. 1976 . Effects of contamination on the interactions of hydrogen gas with palladium: A review . J. Less-Common Met. , 45 : 173
  • Kompaniets , T. N. and Kurdyumov , A. A. 1984 . Surface processes in hydrogen permeation through metal membranes . Prog. Surf. Sci. , 17 : 75
  • Shiraishi , T. , Nishikawa , M. and Fukumatsu , T. 1998 . Permeation of multi-component hydrogen isotopes through nickel . J. Nucl. Mater. , 254 : 205
  • Balovnev , Y. A. 1974 . Diffusion of hydrogen in palladium . Russ. J. Phys. Chem. , 48 : 409
  • Pugachev , V. A. , Busol , F. I. , Nikolaev , E. I. and Nam , B. P. 1975 . Penetration and diffusion of hydrogen in palladium–silver alloys . Russ. J. Phys. Chem. , 49 : 1045
  • Doyle , M. L. and Harris , I. R. 1989 . Order-disorder transformations and hydrogen solubility in a series of Pd–Y solid solution alloys . Z. Phys. Chem. N.F. , 163 : 59
  • Axelrod , S. D. and Makrides , A. C. 1964 . X-ray studies of hydrogen–silver–palladium electrodes . J. Phys. Chem. , 68 ( 8 ) : 2154
  • Makrides , A. C. 1964 . Absorption of hydrogen by silver–palladium alloys . J. Phys. Chem. , 68 ( 8 ) : 2160
  • Oates , W. A. and Flanagan , T. B. 1981 . The solubility of hydrogen in transition metals and their alloys . Prog. Solid State Chem. , 13 : 193
  • Latyshev , V. V. , Gur'yanov , V. G. , Asliddinova , M. Y. , Cholovyan , I. I. and Mironova , G. I. 1991 . Permeation of impurities through hydrogen diffusion membranes of palladium alloys . Phys. Met. Metallogr. , 71 ( 2 ) : 202
  • Latyshev , V. V. , Gur'yanov , V. G. , Asliddinova , M. Y. , Cholovyan , I. I. and Mironova , G. I. 1991 . Hydrogen-stimulated penetration of impurities through palladium alloy membranes . Russ. J. Phys. Chem. , 65 ( 5 ) : 755
  • Latyshev , V. V. , Gur'yanov , V. G. , Asliddinova , M. Y. , Cholovyan , I. I. and Mironova , G. I. 1991 . Hydrogen-stimulated impurity diffusion through palladium–alloy membranes . Sov. Phys. Tech. Phys. (Zh. Tekh. Fiz.) , 36 ( 9 ) : 1058
  • Doroshin , A. Y. , Livshits , A. I. and Samartsev , A. A. 1987 . The effect of carbon coverage on the interaction of hydrogen atoms and molecules with a palladium surface and on palladium membrane permeation by hydrogen . Sov. J. Chem. Phys. (Khim. Fiz.) , 4 ( 8 ) : 1824
  • Moss , T. S. , Peachey , N. M. , Snow , R. C. and Dye , R. C. 1998 . Multilayer metal membranes for hydrogen separation . Int. J. Hydrogen Energy , 23 ( 2 ) : 99
  • Zheng , G. , Popov , B. N. and White , R. E. 1995 . Hydrogen-atom direct-entry mechanism into metal membranes . J. Electrochem. Soc. , 142 ( 1 ) : 154
  • Flanagan , T. B. and Oates , W. A. 1991 . The palladium–hydrogen system . Annu. Rev. Mater. Sci. , 21 : 269
  • Krykin , M. A. and Timashev , S. F. 1985 . “Nonequilibrium” effects in gas transport across solid-state membranes . Sov. Phys. Solid State (Fiz. Tverd. Tela) , 27 ( 9 ) : 1529
  • Stoneham , A. M. 1972 . Theory of the diffusion of hydrogen in metals . Ber. Bunsen-Ges. , 76 ( 8 ) : 816
  • Flanagan , T. B. and Oates , W. A. 1972 . Thermodynamics of metal/hydrogen systems . Ber. Bunsen-Ges. , 76 ( 8 ) : 706
  • Castellan , G. W. 1964 . The transmission of electrolytically deposited hydrogen through a palladium membrane electrode. I. The rate equations . J. Electrochem. Soc. , 111 ( 11 ) : 1273
  • Tovbin , Y. K. 1988 . Molecular-kinetic models of the transfer of substances in inorganic membranes . Russ. Chem. Rev. (Usp. Khim.) , 57 ( 6 ) : 520
  • Kandasamy , K. and Lewis , F. A. 1999 . Important Gorsky effect influences on diffusion coefficients in metal–hydrogen systems . Int. J. Hydrogen Energy , 24 : 763
  • Uchida , H. 1999 . Surface processes of H2 on rare earth based hydrogen storage alloys with various surface modifications . Int. J. Hydrogen Energy , 24 : 861
  • Fast , J. D. 1942 . Experiments on the permeation of gases through metal walls . Philips Tech. Rev. , 7 ( 3 ) : 74
  • Ward , T. L. and Dao , T. 1999 . Model of hydrogen permeation behavior in palladium membranes . J. Membr. Sci. , 153 : 211
  • Andrew , P. L. and Haasz , A. A. 1992 . Models for hydrogen permeation in metals . J. Appl. Phys. , 72 ( 7 ) : 2749
  • Zaika , Y. V. and Gabis , I. E. 1996 . Determination of the parameters of hydrogen permeability of metals by the method of adjoint equations . Ind. Lab. (Zavod. Lab.) , 62 ( 1 ) : 16
  • Ali-Khan , I. , Dietz , K. J. , Waelbroeck , F. G. and Wienhold , P. 1978 . The rate of hydrogen release out of clean metallic surfaces . J. Nucl. Mater. , 76 & 77 : 337
  • Al-Shammary , A.F. Y. , Caga , I. T. , Winterbottom , J. M. , Tata , A. Y. and Harris , I. R. 1991 . Palladium-based diffusion membranes as catalysts in ethylene hydrogenation . J. Chem. Technol. Biotechnol. , 52 : 571
  • Kolesnichenko , I. I. , Michri , A. A. and Pshenichnikov , A. G. 1989 . Kinetics of hydrogen transport through palladium membranes under conditions of the electrochemical injection and extraction of hydrogen . Sov. Electrochem. (Elektrokhimiya) , 25 ( 12 ) : 1501
  • Samartsev , A. A. 1985 . Penetration of hydrogen through metal membranes in low-pressure region . Kinet. Catal. , 26 ( 4 ) : 703
  • Buevich , Y. A. and Ivonin , A. K. 1987 . Diffusion-kinetic theory of the gas permeability of membranes . Russ. J. Phys. Chem. , 61 ( 10 ) : 1482
  • Namba , T. , Yamawaki , M. and Kanno , M. 1984 . Surface effects on hydrogen permeation through fusion reactor materials: A new model and its application to vanadium membrane . J. Fac. Eng. Univ. Tokyo, Ser. B , 37 ( 3 ) : 491
  • Auer , W. and Grabke , H. J. 1974 . The kinetics of hydrogen absorption in palladium (α- and β-phase) and palladium–silver–alloys . Ber. Bunsen-Ges. , 78 ( 1 ) : 58
  • Swansiger , W. A. , Swisher , J. H. , Darginis , J. P. and Schoenfelder , C. W. 1976 . Hydrogen permeation in palladium–chromium alloys . J. Phys. Chem. , 80 ( 3 ) : 308
  • Altunoglu , A. K. , Blackburn , D. A. and Braithwaite , N.S. J. 1991 . Permeation of hydrogen through nickel foils: Surface reaction rates at low temperatures . J. Less-Common Met. , 172–174 : 718
  • Fujita , H. , Okada , S. , Fujita , F. , Sakamoto , H. , Higashi , K. and Hyodo , T. 1980 . Ratio of permeabilities of tritium to protium through palladium–alloy membrane . J. Nucl. Sci. Technol. , 17 ( 6 ) : 436
  • Kizu , K. , Pisarev , A. and Tanabe , T. 2001 . Co-permeation of deuterium and hydrogen through Pd . J. Nucl. Mater. , 289 ( 3 ) : 291
  • Lewis , F. A. 1990 . Solubility of hydrogen in metals . Pure Appl. Chem. , 62 ( 11 ) : 2091
  • Bruzzoni , P. , Carranza , R. M. and Collet Lacoste , J. R. 2000 . Influence of palladium films on hydrogen gas entry into iron: A study by electrochemical impedance spectroscopy . Int. J. Hydrogen Energy , 25 ( 1 ) : 61
  • Bucur , R. V. 1987 . Effect of trapping on the solubility and diffusivity of hydrogen in palladium (α-phase) . J. Mater. Sci. , 22 : 3402
  • Archer , M. D. and Grant , N. C. 1984 . Achievable boundary conditions in potentiostatic and galvanostatic hydrogen permeation through palladium and nickel foils . Proc. R. Soc. London, Ser. A , 395 ( 1808 ) : 165
  • Hickman , R. G. 1969 . Diffusion and permeation of deuterium in palladium–silver at high temperature and pressure . J. Less-Common Met. , 19 ( 4 ) : 369
  • Sieverts , A. and Krumbhaar , W. 1910 . Über die Löslichkeit von Gasen in Metallen und Legierungen . Ber. Dtsch. Chem. Ges. , 43 : 893
  • Manchester , F. D. , San-Martin , A. and Pitre , J. M. 2000 . “ H–Pd (Hydrogen–Palladium) ” . In Phase Diagrams of Binary Hydrogen Alloys Edited by: Manchester , F. D. 158 Materials Park , Ohio, US : ASM International .
  • Hurlbert , R. C. and Konecny , J. O. 1961 . Diffusion of hydrogen through palladium . J. Chem. Phys. , 34 ( 2 ) : 655
  • Evans , M.J. B. 1974 . Surface area effects on the sorption of hydrogen by palladium . Can. J. Chem. , 52 : 1200
  • Lacher , J. R. 1937 . A theoretical formula for the solubility of hydrogen in palladium . Proc. R. Soc. London, Ser. A , 161 : 525
  • Kizu , K. and Tanabe , T. 1999 . Deuterium permeation through metals under hydrogen counter flow . J. Nucl. Mater. , 266–269 : 561
  • Andrew , P. L. and Haasz , A. A. 1991 . Hydrogen permeation through copper-coated palladium . J. Appl. Phys. , 70 ( 7 ) : 3600
  • Kizu , K. and Tanabe , T. 1998 . Counter-diffusion and counter-permeation of deuterium and hydrogen through palladium . J. Nucl. Mater. , 258–263 : 1133
  • Zubarev , Y. A. , Mikhalenko , I. I. and Yagodovskii , V. D. 1983 . Chemisorption of hydrogen on palladium foil and films . Kinet. Catal. , 24 : 1017
  • Fort , D. and Harris , I. R. 1975 . The physical properties of some palladium alloy hydrogen diffusion membrane materials . J. Less-Common Met. , 41 : 313
  • Goto , S. , Assabumrungrat , S. , Tagawa , T. and Praserthdam , P. 2000 . The effect of direction of hydrogen permeation on the rate through a composite palladium membrane . J. Membr. Sci. , 175 : 19
  • Deckman , H. W. , Corcoran , E. W. , McHenry , J. A. , Meldon , J. H. and Papavassiliou , V. A. 1995 . Pressure drop membrane reactor equilibrium analysis . Catal. Today , 235 ( 3–4 ) : 357
  • Goto , S. , Assabumrungrat , S. , Tagawa , T. and Praserthdam , P. 2000 . Dependence of hydrogen pressure on the permeation rate through composite palladium membranes . J. Chem. Eng. Jpn. , 33 ( 2 ) : 330
  • Huang , T.-C. , Wei , M.-C. and Chen , H.-I. 2001 . Permeation of hydrogen through palladium/alumina composite membranes . Sep. Sci. Technol. , 36 ( 2 ) : 199
  • Dittmeyer , R. , Hollein , V. , Quicker , P. , Emig , P. , Hausinger , G. and Schmidt , F. 1999 . Factors controlling the performance of catalytic dehydrogenation of ethylbenzene in palladium composite membrane reactors . Chem. Eng. Sci. , 54 ( 10 ) : 1431
  • Itoh , N. , Wu , T.-H. and Haraya , K. 1995 . Two- and three-dimensional analysis of diffusion through a dense membrane supported on a porous material . J. Membr. Sci. , 99 : 175
  • Collins , J. P. and Way , J. D. 1993 . Preparation and characterization of a composite palladium–ceramic membrane . Ind. Eng. Chem. Res. , 32 ( 12 ) : 3006
  • Itoh , N. , Xu , W.-C. and Haraya , K. 1994 . Radial mixing diffusion of hydrogen in a packed-bed type of palladium membrane reactor . Ind. Eng. Chem. Res. , 33 : 197
  • Hara , S. , Sakaki , K. and Itoh , N. 1999 . Decline in hydrogen permeation due to concentration polarization and CO hindrance in a palladium membrane reactor . Ind. Eng. Chem. Res. , 38 : 4913
  • Jayaraman , V. and Lin , Y. S. 1995 . Synthesis and hydrogen permeation properties of ultrathin palladium–silver alloy membranes . J. Membr. Sci. , 104 : 251
  • Ash , R. and Barrer , R. M. 1959 . Permeation of hydrogen through metals . Philos. Mag. , 4 : 1197
  • Li , A. , Liang , W. and Hughes , R. 1999 . Fabrication of defect-free Pd/α–Al2O3 composite membranes for hydrogen separation . Thin Solid Films , 350 : 106
  • Vandyshev , A. B. , Makarov , V. M. , Murav'ev , L. L. , Tabachnik , E. B. and Nikishin , S. N. 1996 . Modeling of high-temperature membrane apparatuses for the production of ultrapure hydrogen . Theor. Found. Chem. Eng. (Teor. Osn. Khim. Tekhnol.) , 30 ( 5 ) : 506
  • Murav'ev , L. L. , Vandyshev , A. B. and Makarov , V. M. 1999 . The modeling of membrane extraction of hydrogen from multicomponent gas mixtures . Theor. Found. Chem. Eng. (Teor. Osn. Khim. Tekhnol.) , 33 ( 2 ) : 169
  • Vandyshev , A. B. , Murav'ev , L. L. , Makarov , V. M. and Usova , T. B. 1999 . Modeling of the membrane extraction of extra-pure hydrogen from chemically noninteracting multicomponent gaseous mixtures . Chem. Pet. Eng. (Khim. Neftegazov. Mashinostr.) , 35 ( 1–2 ) : 3
  • Penzhorn , R.-D. , Berndt , U. , Kirste , E. and Chabot , J. 1997 . Performance tests of palladium/silver permeators with tritium at the tritium laboratory Karlsruhe . Fusion Technol. , 32 : 232
  • Baboshin , V. M. , Buevich , J. A. , Ivonin , A. K. , Kirnos , I. V. and Kukui , B. G. 1984 . Diffusion separation of hydrogen from gas mixtures . Russ. J. Eng. Phys. (Inzh.-Fiz. Zh.) , 47 ( 1 ) : 821
  • Belyakov , Y. I. , Zvezdin , Y. I. and Kurakin , V. A. 1980 . Effect of mechanical surface treatment on the permeability to hydrogen of metallic membranes . Russ. J. Phys. Chem. , 54 ( 11 ) : 1603
  • Pyun , S.-I. , Lim , C. and Kim , K.-B. 1994 . An investigation of the electrochemical kinetics of deuterium insertion into a Pd membrane electrode in 0.1 LiOD solution by the a.c. impedance technique . J. Alloys Compd. , 203 : 149
  • Bucur , R. V. 1985 . The influence of experimental conditions upon the measurements of hydrogen diffusion in palladium by electrochemical permeation methods . Z. Phys. Chem. N.F. , 146 : 613
  • Pu , C. , Huang , W. , Ley , K. L. and Smotkin , E. S. 1995 . A methanol impermeable proton conducting composite electrolyte system . J. Electrochem. Soc. , 142 ( 7 ) : L119
  • Cabot , P. L. , Guezala , E. , Calpe , J. C. , García , M. T. and Casado , J. 2000 . Application of Pd-based electrodes as hydrogen diffusion anodes in alkaline fuel cells . J. Electrochem. Soc. , 147 ( 1 ) : 43
  • Lewis , F. A. , Sakamoto , Y. and Tong , X. Q. 1995 . Strain gradient effects on hydrogen permeation through hydrided metals . Int. J. Hydrogen Energy , 20 ( 5 ) : 365
  • Edlund , D. Hydrogen-Permeable Metal Membrane and Method for Producing the Same . US Patent 6,152,995 . Nov 28, 2000 .
  • Juda , W. , Krueger , C. W. and Bombard , R. T. Method of Fabricating Thinned Free-Standing Metallic Hydrogen-selective Palladium-bearing Membranes and Novel Pin-hole-Free Membranes Formed Thereby . US Patent 6,103,028 . Aug. 15, 2000 .
  • Mishchenko , A. P. , Gryaznov , V. M. and Sarylova , M. E. 1991 . Effect of thermodiffusion and chemical treatment of the surface of membrane catalysts made from palladium alloys with ruthenium and rhodium on penta-1,3-diene hydrogenation . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 40 ( 6 (1) : 1154
  • Mishchenko , A. P. , Sarylova , M. E. , Litvinov , I. A. , Bezruk , L. I. and Gryaznov , V. M. 1985 . Influence of heat-treating conditions on formation of pore structure of surface layer of palladium–ruthenium alloy foil . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 34 ( 3 (1) : 524
  • Sarylova , M. E. , Mishchenko , A. P. , Gryaznov , V. M. and Litvinov , A. 1991 . Effect of preparative conditions of a porous surface layer on the hydrogen permeability of palladium/ruthenium alloy membranes . Bull. Acad. Sci. USSR (Iz. Akad. Nauk SSSR, Ser. Khim.) , 40 ( 6 ) : 1149
  • Mishchenko , A. P. , Gryaznov , V. M. and Sarylova , M. E. 1991 . Influence of thermodiffusive and chemical treatment of membrane catalyst surfaces formed from alloys of palladium with rhodium or ruthenium on hydrogeation of 1,3-pentadiene . Chem. Abstr. , 115 : 255409a
  • Khrushcheva , E. I. and Tarasevich , M. R. 1978 . Electrochemical determination of surface area of metals . Russ. Chem. Rev. , 47 ( 5 ) : 416
  • Baranov , Y. M. , Zozulya , V. Y. and Nazarkina , E. B. 1989 . Transport of hydrogen across thin films of palladium alloys . Sov. Chem. Ind. (Khim. Prom-st.) , 21 ( 1 ) : 100
  • Nishikawa , M. , Shiraishi , T. , Kawamura , Y. and Takeishi , T. 1996 . Permeation rate of hydrogen isotopes through palladium–silver alloy . J. Nucl. Sci. Technol. , 33 ( 10 ) : 774
  • Doyle , B. L. 1982 . A simple theory for maximum H inventory and release: A new transport parameter . J. Nucl. Mater. , 111 & 112 : 628
  • Liu , S.-Y. , Kao , Y.-H. , Su , O. Y. and Perng , T.-P. 1999 . In situ monitoring of hydrogen absorption-desorption in Pd and Pd77Ag23 films by an electrochemical quartz crystal microbalance . J. Alloys Compd. , 293–295 : 468
  • Tontegode , A. Y. 1977 . Reduction in hydrogen permeability of palladium foils with carbon films . Sov. Tech. Phys. Lett. (Pis'ma Zh. Tekh. Fiz.) , 3 ( 7 ) : 260
  • Criscuoli , A. , Basile , A. , Drioli , E. and Loiacono , O. 2001 . An economic feasibility study for water gas shift membrane reactor . J. Membr. Sci. , 181 : 21
  • Richardson , O. W. , Nicol , J. and Parnell , T. 1904 . The diffusion of hydrogen through hot platinum . Philos. Mag. , 8 ( 43 ) : 1
  • Mardilovich , P. P. , She , Y. , Ma , Y. H. and Rei , M.-H. 1998 . Defect-free palladium membranes on porous stainless-steel support . AIChE J. , 44 ( 2 ) : 310
  • Fort , D. , Farr , J.P. G. and Harris , I. R. 1975 . A comparison of palladium–silver and palladium–yttrium alloys as hydrogen separation membranes . J. Less-Common Met. , 39 ( 2 ) : 293
  • van Swaay , M. and Birchenall , C. E. 1960 . Permeability and diffusion of hydrogen through palladium . AIME Trans. , 218 ( 4 ) : 285
  • Rodina , A. A. and Doronicheva , N. I. 1966 . Rate of diffusion of hydrogen through palladium . Russ. J. Phys. Chem. , 40 ( 7 ) : 788
  • Le Claire , A. D. 1983 . Permeation of gases through solids . Diffus. Defect Data , 33 : 1
  • Peachey , N. M. , Snow , R. C. and Dye , R. C. 1996 . Composite Pd/Ta metal membranes for hydrogen separation . J. Membr. Sci. , 111 : 123
  • Altonoglu , A. K. and Braithwaite , N.S. J. 1995 . The science and application of modulated permeation experiments . J. Alloys Compd. , 231 : 302
  • Antoniazzi , A. B. , Haasz , A. A. and Stangeby , P. C. 1989 . The effect of adsorbed carbon and sulphur on hydrogen permeation through palladium . J. Nucl. Mater. , 162–164 : 1065
  • Steward , S. A. 1983 . “ Review of Hydrogen Isotope Permeability Through Materials ” . In US National Laboratory Report UCRL-53441
  • Weirich , W. , Biallas , B. , Kügler , B. , Oertel , M. , Pietsch , M. and Winkelmann , U. 1986 . Development of a laboratory cycle for a thermochemical water-splitting process (Me/MeH cycle) . Int. J. Hydrogen Energy , 11 ( 7 ) : 459
  • Uchida , H. and Fromm , E. 1983 . Effect of palladium and oxygen layers on the hydrogen absorption rate of tantalum films at 300 K . J. Less-Common Met. , 95 : 153
  • Uchida , H. and Fromm , E. 1983 . Kinetics of hydrogen absorption by titanium, tantalum, tungsten, iron, and palladium films with and without oxygen preabsorption at 300 K . J. Less-Common Met. , 95 : 139
  • Uchida , H. H. , Wulz , H.-G. and Fromm , E. 1991 . Catalytic effect of nickel, iron and palladium on hydriding titanium and storage materials . J. Less-Common Met. , 172–174 : 1076
  • Ashida , K. , Watanabe , K. , Ikeno , S. and Mori , K. 1998 . Surface modification of Zr-based alloys applicable for tritium processing . Fusion Eng. Des. , 39–40 : 1049
  • Andrew , P. L. and Haasz , A. A. 1991 . Effect of thin copper and palladium films on hydrogen permeation through iron . J. Less-Common Met. , 172–174 : 732
  • Ashida , K. , Nishida , W. , Nagata , J.-I. , Nishimura , Y. and Watanabe , K. 1999 . Recovery of deuterium from argon carrier gas by ZrNi modified with electroless Pd coating . Mater. Trans., JIM , 40 ( 9 ) : 851
  • Libowitz , G. G. and Maeland , A. J. 1988 . Hydride formation by b.c.c. solid solution alloys . Mater. Sci. Forum , 31 : 177
  • Hill , E. F. Method for Removing Hydrogen from Liquid Alkali Metals and the Like . US Patent 3,622,303 . Aug. 28, 1971 .
  • Holleck , G. L. 1970 . Hydrogen Diffusion through (palladium–silver)–tantalum–(palladium–silver) composites . J. Phys. Chem. , 74 ( 9 ) : 1957
  • Nakamura , K. , Uchida , H. and Fromm , E. 1981 . Kinetics of hydrogen absorption of tantalum coated with thin films of palladium, iron, nickel, copper and silver . J. Less-Common Met. , 80 : P19
  • Šušić , M. V. and Ribnikar , S. V. 1994 . Absorption of hydrogen by palladium-coated tantalum powder . Int. J. Hydrogen Energy , 19 ( 9 ) : 751
  • Lagos , M. , Martinez , G. and Schuller , I. K. 1984 . Kinetics of hydrogen absorption in transition metals and subsurface bonding . Phys. Rev. B , 29 ( 10 ) : 5979
  • Strongin , M. , El-Batanouny , M. and Pick , M. A. 1980 . Structure of Pd overlayers on Nb and Ta and the relationship to hydrogen uptake . Phys. Rev. B , 22 ( 6 ) : 3126
  • Züchner , H. , Schluter , H.-J. , Rauf , T. and Hergemoller , R. 1991 . Properties of thin palladium-films and their hydrogen-permeability . Ber. Bunsen-Ges. , 95 ( 11 ) : 1401
  • Züchner , H. 1980 . Multilayer problems in studying the diffusion of hydrogen in metals by time-lag techniques . Trans., JIM (Proceedings of JIMIS—2. Hydrogen in Metals) , 21 ( Supplement ) : 101
  • Makrides , A. C. , Wright , M. A. and Jewett , D. N. Separation of hydrogen by permeation . US Patent 3,350,846 . Nov. 7, 1967 .
  • El-Batanouny , M. , Strongin , M. and Williams , G. P. 1981 . Relationship between electronic structure and hydrogen-uptake kinetics . Am. Phys. Soc. , 46 ( 4 ) : 269
  • Davenport , J. W. , Dienes , G. J. and Johnson , R. A. 1982 . Surface effects on the kinetics of hydrogen absorption by metals . Phys. Rev. B , 25 ( 4 ) : 2165
  • Buxbaum , R. E. , Subramanian , R. , Park , J. H. and Smith , D. L. 1996 . Hydrogen transport and embrittlement for palladium coated vanadium–chromium–titanium alloys . J. Nucl. Mater. , 233–237 : 510
  • Buxbaum , R. E. 1983 . The use of zirconium–palladium windows for the separation of tritium from the liquid metal breeder-blanket of a fusion reactor . Sep. Sci. Technol. , 18 ( 12 & 13 ) : 1251
  • Amano , M. , Komaki , M. and Nishimura , C. 1991 . Hydrogen permeation characteristic of palladium-plated V–Ni alloy membranes . J. Less-Common Met. , 172–174 : 727
  • Pick , M. A. , Davenport , J. W. , Strongin , M. and Dienes , G. J. 1979 . Enhancement of hydrogen uptake rates for Nb and Ta by thin surface overlayers . Phys. Rev. Lett. , 43 ( 4 ) : 286
  • Züchner , H. and Boes , N. 1974 . SIMS—Untersuchungen zum Einfluβ von Oberflächenschichten auf die Wasserstoffdurchlässigkeit von Tantal–Folien . Z. Phys. Chem. N.F. , 93 : 65
  • Boes , N. and Züchner , H. 1973 . Diffusion of hydrogen and deuterium in Ta, Nb, and V . Phys. Status Solidi A , 17 : K111
  • Boes , N. and Züchner , H. 1978 . Secondary ion mass spectrometry and Auger electron spectroscopy investigations of Vb metal foils prepared for hydrogen permeation measurements . Surf. Technol. , 7 : 401
  • Moss , T. S. and Dye , R. C. 1996 . Engineering Materials for Hydrogen Separation, DE97002456 Los Alamos , New Mexico, US : Los Alamos National Laboratory .
  • Moss , T. S. and Dye , R. C. 1997 . Composite Metal Membranes for Hydrogen Separation Applications, DE97007586 Los Alamos , New Mexico, US : Los Alamos National Laboratory .
  • Peachey , N. M. and Dye , R. C. 1995 . High Temperature Efforts at Los Alamos National Laboratory, DE96011306 Los Alamos , New Mexico, US : Los Alamos National Laboratory .
  • Peachey , N. M. , Dye , R. C. , Snow , R. C. and Birdsell , S. A. Composite Metal Membrane . US Patent 5,738,708 . Apr. 14, 1998 .
  • Cussler , E. L. 1997 . Diffusion: Mass Transfer in Fluid Systems , 2nd Ed. New York : Cambridge University Press .
  • Mulder , M. 1991 . Basic Principles of Membrane Technology Dordrecht , The Netherlands : Kluwer Academic Publishers .
  • Chai , M. , Machida , M. , Eguchi , K. and Arai , H. 1992 . Gas permeation through microporous alumina membranes containing highly dispersed metal particles . Chem. Lett. , : 979
  • Higashi , K. , Ito , H. and Oishi , J. 1964 . Surface diffusion phenomena in gaseous diffusion, (II) . J. Nucl. Sci. Technol. , 1 ( 8 ) : 298
  • Eickmann , U. and Werner , U. 1985 . Gas separation using porous membrane . Ger. Chem. Eng. , 8 : 186
  • Nam , S.-E. and Lee , K.-H. 2000 . A study on the palladium–nickel composite membrane by vacuum electrodeposition . J. Membr. Sci. , 170 ( 1 ) : 91
  • Shu , J. , Grandjean , B.P. A. , Kaliaguine , S. , Ciaveralla , P. , Giroir-Fendler , A. and Dalmon , J.-A. 1996 . Hysteresis in hydrogen permeation through palladium membranes . J. Chem. Soc., Faraday Trans. , 92 ( 15 ) : 2745
  • Votyakov , E. V. , Vasyutkin , N. F. , Senyavin , M. M. and Tovbin , Y. K. 1999 . Interrelation between the phase state of palladium membranes and the characteristics of hydrogen transfer . Russ. J. Phys. Chem. , 73 ( 12 ) : 1924
  • Livshits , A. I. and Samartsev , A. A. 1979 . Attaining the extreme values of the adhesion and penetration probabilities in the system of hydrogen and a palladium membrane . Sov. Phys. Tech. Phys. (Zh. Tekh. Fiz.) , 49 ( 11 ) : 1365
  • Li , A. and Hughes , R. 2000 . The effect of carbon monoxide and steam on the hydrogen permeability of a Pd/stainless steel membrane . J. Membr. Sci. , 165 : 135
  • Bukalov , A. P. and Koshel' , V. I. 1985 . Temperature relationship of concentration dilatation and specific capacity of hydrogen diffusion filters of V-1 alloy . Sov. Mater. Sci. (Fiz.-Khim. Mekh. Mater.) , 21 ( 1 ) : 99
  • Khrisanfova , L. V. , Zaidenman , I. A. and Rodina , A. A. 1975 . Asymmetric diffusion of hydrogen through bimetallic membranes . Russ. J. Phys. Chem. , 49 ( 4 ) : 561
  • Herzog , F. and Glaubitz , D. 1990 . Production of hydrogen from the Na/NaH-process . Int. J. Hydrogen Energy , 15 ( 1 ) : 13
  • Pick , M. A. and Sonnenberg , K. 1985 . A model for atomic hydrogen-metal interactions-application to recycling, recombination and permeation . J. Nucl. Mater. , 131 : 208
  • Lee , W.-J. , Pyun , S.-I. , Yang , T.-H. , Kim , J.-D. , Baek , Y.-H. and Kim , H.-G. 1997 . Hydrogen transport through Pd–Ni alloy electrodeposited on Pd substrate . J. Solid State Electrochem. , 1 : 120
  • Kompaniets , T. N. , Kurakin , V. A. , Kurdyumov , A. A. and Lyasnikov , V. N. 1978 . Investigation of the kinetics of permeation of hydrogen through copper membranes . Sov. Phys. Solid State (Fiz. Tverd. Tela) , 20 ( 12 ) : 2043
  • Glazunov , G. P. 1997 . Hydrogen permeation through palladium after hydrogen-thermal treatment and exposure to a plasma of glow discharge in hydrogen, helium and argon . Int. J. Hydrogen Energy , 22 ( 2/3 ) : 263
  • Basile , A. , Paturzo , L. and Laganà , F. 2001 . The partial oxidation of methane to syngas in a palladium membrane reactor: Simulation and experimental studies . Catal. Today , 67 : 65
  • Worsham , J. E. , Wilkinson , M. K. and Shull , C. G. 1957 . Neutron-diffraction observations on the palladium–hydrogen and palladium–deuterium systems . J. Phys. Chem. Solids , 3 : 303
  • Maeda , T. , Naito , S. , Yamamoto , M. , Mabuchi , M. and Hashino , T. 1994 . High-temperature diffusion of hydrogen and deuterium in palladium . J. Chem. Soc., Faraday Trans. , 90 ( 6 ) : 899
  • Kang , B.-S. and Sohn , K.-S. 1995 . Diffusion processes and interactions of hydrogen atoms in Pd . Physica B , 205 : 163
  • Katsnel'son , A. A. , Knyazeva , M. A. , Revkevich , G. P. and Olemskoı , A. I. 1997 . Characteristics of the evolution of defect structure during phase transformations in the Pd–H system . Phys. Solid State (Fiz. Tverd. Tela) , 39 ( 7 ) : 1132
  • Ponyatovskii , E. G. , Antonov , V. E. and Belash , I. T. 1982 . Properties of high pressure phases in metal–hydrogen systems . Sov. Phys. Usp. (Usp. Fiz. Nauk) , 25 ( 8 ) : 596
  • Tsuchida , T. 1963 . Role of hydrogen atoms in palladium . J. Phys. Soc. Jpn. , 18 ( 7 ) : 1016
  • Bohmholdt , G. and Wicke , E. 1967 . Zur Diffusion von Wasserstoff und Deuterium in Palladium und Pd–Legierungen . Z. Phys. Chem. N.F. , 56 : 133
  • Davis , P. P. , Seymour , E.F. W. , Zamir , D. , Williams , W. D. and Cotts , R. M. 1976 . Nuclear magnetic resonance study of hydrogen diffusion in palladium–silver alloys . J. Less-Common Met. , 49 : 159
  • Vykhodets , V. B. , Demin , V. B. and Geld , P. V. 1976 . Hydrogen Isotope diffusivity and solubility in nickel, palladium, and copper . Phys. Status Solidi A , 34 : 787
  • Sköld , K. and Nelin , G. 1967 . Diffusion of hydrogen in the α-phase of Pd–H studied by small energy transfer neutron scattering . J. Phys. Chem. Solids , 28 : 2369
  • Smirnov , L. I. 1999 . Diffusion of hydrogen in metals at arbitrary concentration gradients . Int. J. Hydrogen Energy , 24 : 813
  • Feldberg , S. W. and Reilly , J. J. 1997 . Phenomenological treatment of hydrogen transport in a metal/metal hydride system . J. Electrochem. Soc. , 144 ( 12 ) : 4260
  • Smirnov , L. I. and Filonenko , S. S. 1989 . Concerning the concentration dependence of the diffusion coefficient of hydrogen in aluminium . Phys. Met. Metallogr. , 67 ( 2 ) : 25
  • Smirnov , L. I. and Gol'tsov , V. A. 1997 . Dynamics of metal–hydrogen systems in a continuum approximation and some hydrogen-induced elastic effects . Phys. Met. Metallogr. , 84 ( 6 ) : 599
  • Smirnov , L. I. and Gol'tsov , V. A. 1988 . Nonlinear and crossover effects in the diffusion penetration of hydrogen through a metallic membrane . Russ. J. Eng. Phys. (Inzh.-Fiz. Zh.) , 55 ( 3 ) : 981
  • Smirnov , L. I. 1990 . Effect of the concentration dependence of the diffusion coefficient on the distribution and flow of hydrogen in palladium membranes . Russ. J. Eng. Phys. (Inzh.-Fiz. Zh.) , 59 ( 10 ) : 1280
  • Jemaa , N. , Grandjean , B.P. A. and Kaliaguine , S. 1995 . Diffusion coefficient of hydrogen in a Pd–Ag membrane: Effect of hydrogen solubility . Can. J. Chem. Eng. , 73 : 405
  • Lewis , F. A. , Kandasamy , K. and Baranowski , B. 1988 . The “uphill” diffusion of hydrogen . Platinum Met. Rev. , 32 ( 1 ) : 22
  • Zoltowski , P. 1999 . Effects of self-induced mechanical stress in hydrogen sorption by metals, by EIS . Electrochim. Acta , 44 : 4415
  • Tong , X. Q. , McNicholl , R.-A. , Kandasamy , K. and Lewis , F. A. 1992 . Hydrogen permeation in stressed and strained membranes of palladium alloys . Int. J. Hydrogen Energy , 17 ( 10 ) : 777
  • Tong , X. Q. , Sakamato , Y. , Lewis , F. A. , Bucur , R. V. and Kandasamy , K. 1997 . “Uphill” hydrogen diffusion effects and hydrogen diffusion coefficients in palladium . Int. J. Hydrogen Energy , 22 ( 2/3 ) : 141
  • Tong , X. Q. , Bucur , R. V. , Kandasamy , K. and Lewis , F. A. 1993 . Strain gradient related uphill hydrogen diffusion phenomena in Pd77Ag23H n . Z. Phys. Chem. N.F. , 181 : 225
  • Tong , X. Q. , Kandasamy , K. and Lewis , F. A. 1990 . Influences of lattice strain gradients on hydrogen permeation through palladium membranes containing hydrogen contents in α, α+β and β phase concentration ranges . Scr. Metall. , 24 ( 10 ) : 1923
  • Sakamoto , Y. , Tanaka , H. , Lewis , F. A. , Tong , X. Q. and Kandasamy , K. 1996 . “Uphill” hydrogen diffusion effects of hydrogen interstitial strain gradients in palladium and palladium alloys . Int. J. Hydrogen Energy , 21 ( 11/12 ) : 1025
  • Sakamoto , Y. , Tanaka , H. , Lewis , F. A. and Tong , X. Q. 1993 . Observations of “uphill” diffusion of hydroegn in palladium and nickel membranes by an electrochemical permeation method . Z. Phys. Chem. N.F. , 181 : 219
  • Sakamoto , Y. , Tanaka , H. , Sakamoto , F. , Lewis , F. A. and Tong , X. Q. 1995 . Self strain gradient induced diffusion of hydrogen in Pd–Ag alloy membranes . Int. J. Hydrogen Energy , 20 ( 1 ) : 35
  • Sakamoto , Y. , Tong , X. Q. and Lewis , F. A. 1991 . Effects of non-Fickian uphill components of permeation flux on estimations of hydrogen diffusion coefficients in the Pd/H system . Scr. Metall. , 25 : 1629
  • Yang , T.-H. , Pyun , S.-I. and Yoon , Y.-G. 1997 . Hydrogen transport through Pd electrode current transient analysis . Electrochim. Acta , 42 ( 11 ) : 1701
  • Tong , X. Q. and Lewis , F. A. 1995 . Indications of linearity deviations of steady-state concentration profiles in hydrogen permeation membranes . Int. J. Hydrogen Energy , 20 ( 8 ) : 641
  • Lewis , F. A. , Tong , X. Q. and Bucur , R. V. 1991 . Permeation of hydrogen through palladium–silver membranes . Platinum Met. Rev. , 35 ( 3 ) : 138
  • Lewis , F. A. , Tong , X. Q. and Kandasamy , K. 1993 . Lattice strain gradient influences on steady-state rates of hydrogen permeation through membranes . Int. J. Hydrogen Energy , 18 ( 6 ) : 481
  • Sakamoto , Y. , Tanaka , H. , Lewis , F. A. and Tong , X. Q. 1992 . Strain gradient-induced diffusion of hydrogen in palladium and nickel membranes . Int. J. Hydrogen Energy , 17 ( 12 ) : 965
  • Mällo , A. and Krozer , A. 1991 . “Up-hill” diffusion and hydrogen–hydrogen interaction in palladium–platinum alloys . J. Less-Common Met. , 167 : 305
  • Simon , A. M. 1997 . A criticism of the postulated quadratic steady-state concentration profile for strain gradient induced hydrogen diffusion in metallic membranes . Int. J. Hydrogen Energy , 22 ( 1 ) : 27
  • Zhang , W.-S. , Zhang , X.-W. and Zhang , Z.-L. 2000 . Steady concentration distribution of hydrogen in elastic membranes during hydrogen diffusion . J. Alloys Compd. , 302 : 258
  • Zhang , W.-S. , Zhang , X.-W. and Zhang , Z.-L. 2000 . Effects of self-induced stress on the steady concentration distribution of hydrogen in fcc metallic membranes during hydrogen diffusion . Phys. Rev. B , 62 ( 13 ) : 8884
  • Keizer , K. , Uhlhorn , R.J. R. , Zaspalis , V. T. and Burggraaf , A. J. 1991 . Transport and related (gas and vapour) separation in ceramic membranes . Key Eng. Mater. , 61 & 62 : 143
  • Wu , J.C. S. , Flowers , D. F. and Liu , P.K. T. 1993 . High-temperature separation of binary gas mixtures using microporous ceramic membranes . J. Membr. Sci. , 77 : 85
  • Barbieri , G. , Violante , V. and Drioli , E. 1997 . Methane steam reforming analysis in a palladium-based catalytic membrane reactor . Ind. Eng. Chem. Res. , 36 ( 8 ) : 3369
  • Uemiya , S. , Kajiwara , M. and Kojima , T. 1997 . Composite membranes of group VIII metal supported on porous alumina . AIChE J.: Ceram. Process. , 43 ( 11A ) : 2715
  • Liu , Y. , Dixon , A. G. , Ma , Y. H. and Moser , W. R. 1990 . Permeation of ethylbenzene and hydrogen through untreated and catalytically-treated alumina membranes . Sep. Sci. Technol. , 25 ( 13–15 ) : 1511
  • Sotirchos , S. V. and Burganos , V. N. 1999 . Transport of gases in porous membranes . MRS Bull. , 24 ( 3 ) : 41
  • Schofield , R. W. , Fane , A. G. and Fell , C.J. D. 1990 . Gas and vapour transport through microporous membranes. I. Knudsen–Poiseuille transition . J. Membr. Sci. , 53 ( 1–2 ) : 159
  • Datta , R. , Dechapanichkul , S. , Kim , J. S. , Fang , L. Y. and Uehara , H. 1992 . A generalized model for the transport of gases in porous, non-porous, and leaky membranes I. Application to single gases . J. Membr. Sci. , 75 : 245
  • Scott , D. S. and Dullien , F.A. L. 1962 . Diffusion of ideal gases in capillaries and porous solids . AIChE J. , 8 ( 1 ) : 113
  • Smid , J. , Avci , C. G. , Günay , V. , Terpstra , R. A. and Eijk , J.P.G. M. 1996 . Preparation and characterization of microporous ceramic hollow fibre membranes . J. Membr. Sci. , 112 : 85
  • Sircar , S. and Rao , M. B. 1990 . Estimation of surface diffusion through porous media . AIChE J. , 36 ( 8 ) : 1249
  • So , J.-H. , Yang , S.-M. and Park , S. B. 1998 . Preparation of silica–alumina composite membranes for hydrogen separation by multi-step pore modifications . J. Membr. Sci. , 147 : 147
  • Xomeritakis , G. and Lin , Y.-S. 1998 . CVD synthesis and gas permeation properties of thin palladium/alumina membranes . AIChE J. , 44 ( 1 ) : 174
  • Liu , B. , Li , H. , Cao , Y. , Deng , J.-F. , Sheng , C. and Zhou , S. 1997 . Preparation and characterization of Ni–P amorphous alloy/ceramic composite membrane . J. Membr. Sci. , 135 : 33
  • Lee , S.-J. , Yang , S.-M. and Park , S. B. 1994 . Synthesis of palladium impregnated alumina membrane for hydrogen separation . J. Membr. Sci. , 96 : 223
  • Huckins , H. E. and Kammermeyer , K. 1953 . The separation of gases by means of porous membranes . Chem. Eng. Prog. , 49 ( 4 ) : 180
  • Uhlhorn , R.J. R. , Keizer , K. and Burggraaf , A. J. 1989 . Gas and surface diffusion in modified γ-alumina systems . J. Membr. Sci. , 46 : 225
  • Schramm , O. and Seidel-Morgenstern , A. 1999 . Comparing porous and dense membranes for the application in membrane reactors . Chem. Eng. Sci. , 54 ( 10 ) : 1447
  • Kim , J. and Lin , Y. S. 2000 . Synthesis and oxygen-permeation properties of Thin YSZ/Pd composite membranes . AIChE J. , 46 ( 8 ) : 1521
  • Ackerman , F. J. and Koskinas , G. J. 1972 . Permeation of hydrogen and deuterium through palladium–silver alloys . J. Chem. Eng. Data , 17 ( 1 ) : 51
  • Deng , J. , Cao , Z. and Zhou , B. 1995 . Catalytic dehydrogenation of ethanol in a metal-modified alumina membrane reactor . Appl. Catal. A , 132 ( 1 ) : 9
  • Uemiya , S. , Kato , W. , Uyama , A. , Kajiwara , M. , Kojima , T. and Kikuchi , E. 2001 . Separation of hydrogen from gas mixtures using supported platinum-group metal membranes . Sep. Purif. Technol. , 22–23 : 309
  • Xue , D. and Deng , J.-F. 2001 . Amorphous Ni–B alloy/ceramic composite membrane prepared by an improved electroless plating technique . Mater. Lett. , 47 : 271
  • Cao , Y. , Liu , B. and Deng , J. 1997 . Catalytic dehydrogenation of ethanol in Pd–M/γ–Al2O3 composite membrane reactors . Appl. Catal. A , 154 ( 1–2 ) : 129
  • Felter , T. E. , Stulen , R. H. , Koszykowski , M. L. , Gdowski , G. E. and Garrett , B. 1989 . Experimental and theoretical investigation of hydrogen diffusion on a metal surface . J. Vac. Sci. Technol., A , 7 ( 1 ) : 104
  • Eguchi , K. , Chai , M.-R. , Machida , M. and Arai , H. 1994 . Metal dispersed porous alumina membrane for selective hydrogen permeation and its application to membrane reactor for methane steam reforming . Stud. Surf. Sci. Catal. , 92 : 251
  • Eguchi , K. , Chai , M.-R. , Yamashita , Y. , Machida , M. and Arai , H. 1993 . Selective hydrogen permeation through metal-dispersed porous alumina membrane . Stud. Surf. Sci. Catal. , 77 : 195
  • Chai , M. , Machida , M. , Eguchi , K. and Arai , H. 1993 . Promotion of methane steam reforming using ruthenium-dispersed microporous alumina membrane reactor . Chem. Lett. , : 41
  • Chai , M. , Yamashita , Y. , Machida , M. , Eguchi , K. and Arai , H. 1994 . Preparation and characterization of metal-dispersed alumina membranes for selective separation of hydrogen . J. Membr. Sci. , 97 : 199
  • Zaluski , L. , Zaluski , A. , Tessier , P. , Ström-Olsen , J. O. and Schulz , R. 1995 . Catalytic effect of Pd on hydrogen absorption in mechanically alloyed Mg2Ni, LaNi5 and FeTi . J. Alloys Compd. , 217 : 295
  • Liu , B. , Wu , G. , Niu , G. and Deng , J.-F. 1999 . Rh-modified alumina membranes: Preparation, characterization and reaction studies . Appl. Catal. A , 185 : 1
  • Kajiwara , M. , Uemiya , S. and Kojima , T. 1999 . Stability and hydrogen permeation behavior of supported platinum membranes in presence of hydrogen sulfide . Int. J. Hydrogen Energy , 24 ( 9 ) : 839
  • Kajiwara , M. , Uemiya , S. , Kojima , T. and Kikuchi , E. 2000 . Hydrogen permeation properties through composite membranes of platinum supported on porous alumina . Catal. Today , 56 ( 1–3 ) : 65
  • Kajiwara , M. , Uemiya , S. , Kojima , T. and Kikuchi , E. 2000 . Rhodium- and iridium-dispersed porous alumina membranes and their hydrogen permeation properties . Catal. Today , 56 ( 1–3 ) : 83
  • Rubin , L. R. Seal for Thin Tubing . US Patent 3,437,357 . 1969 .
  • Clark , E. A. , Dauchess , D. A. , Heung , L. K. , Rabun , R. L. and Motyka , R. T. 1995 . SRS History and Experience with Palladium Diffusers, DE96002953
  • Raftopoulos , S. , Gentile , C. , LaMarche , P. and Langford , J. 1996 . Operational experience of the tritium purification system . Fusion Technol. , 30 ( 3 ) : 922
  • Juda , W. Diffusion-bonded palladium–copper alloy framed membrane for pure hydrogen generators and the like and method of preparing the same . US Patent 5,904,754 . May 18, 1999 .
  • Ito , Y. and Sakai , H. 1990 . A simple and reusable metal sample holder for hydrogen permeation experiments . Rev. Sci. Instrum. , 62 ( 1 ) : 253
  • Quicker , P. , Höllein , V. and Dittmeyer , R. 2000 . Catalytic dehydrogenation of hydrocarbons in palladium composite membrane reactors . Catal. Today , 56 ( 1–3 ) : 21
  • Akiyama , S. , Mizuta , H. , Anzai , H. , Kusakabe , K. and Morooka , S. 1998 . Preparation of Gas Separation Membranes Supported on α-alumina Porous Hollow Fibers . Proc. 5th Intl. Conf. Inorganic Membr. June 22–26 1998 , Nagoya , Japan. pp. 398
  • Chaklader , A.C. D. , Armstrong , A. M. and Misra , S. K. 1968 . Interface reactions between metals and ceramics: IV, wetting of sapphire by liquid copper–oxygen alloys . J. Am. Ceram. Soc. , 51 ( 11 ) : 630
  • Rubin , L. R. Apparatus and method for the production of pure hydrogen from a hydrogen-containing crude gas . US Patent 4,472,176 . Sep. 18, 1984 .
  • Benson , S. 2000 . Ceramics for Advanced Power Generation London : IEA Coal Research .
  • Mercea , P.-V. and Mecea , V. 1991 . Gas separation through a high-flux asymmetric polymer membrane metallized with palladium . Gas Sep. Purif. , 5 : 267
  • McCool , B. A. and Lin , Y. S. 2001 . Nanostructured thin palladium–silver membranes: Effects of grain size on gas permeation properties . J. Mater. Sci. , 36 : 3221
  • Ali , J. K. , Newson , E. J. and Rippin , D.W. T. 1994 . Deactivation and regeneration of Pd–Ag membranes for dehydrogenation reactions . J. Membr. Sci. , 89 : 171
  • Roshan , N. R. , Mishchenko , A. P. , Ployakova , V. P. , Parfenova , N. I. , Savitsky , E. M. , Voitekhova , E. A. , Gryaznov , V. M. and Sarylova , M. E. 1983 . The effect of the surface state on the hydrogen permeability and the catalytic activity of palladium alloy membranes . J. Less-Common Met. , 89 : 423
  • Yoshida , H. , Konishi , S. and Naruse , Y. 1983 . Effects of impurities on hydrogen permeability through palladium alloy membranes at comparatively high pressures and temperatures . J. Less-Common Met. , 89 : 429
  • Sakamoto , F. , Kinari , Y. , Chen , F. L. and Sakamoto , Y. 1997 . Hydrogen permeation through palladium alloy membranes in mixture gases of 10% nitrogen and ammonia in the hydrogen . Int. J. Hydrogen Energy , 22 ( 4 ) : 369
  • Conrad , H. , ERtl , G. and Latta , E. E. 1974 . Coadsorption of hydrogen and carbon monoxide on a Pd (110) surface . J. Catal. , 35 : 363
  • Ali , J. K. , Hasler , P. , Newson , E. J. and Rippin , D.W. T. 1994 . Irreversible poisoning of Pd–Ag membranes . Int. J. Hydrogen Energy , 19 ( 11 ) : 877
  • Edlund , D. J. and Pledger , W. A. 1994 . Catalytic platinum-based membrane reactor for removal of H2S from natural gas streams . J. Membr. Sci. , 94 : 111
  • Edlund , D. J. and Pledger , W. A. 1993 . Thermolysis of hydrogen sulfide in a metal-membrane reactor . J. Membr. Sci. , 77 : 255
  • Edlund , D. 1996 . A Membrane Reactor for H2S Decomposition . Advanced Coal-fired Power Systems '96 Review Meeting . Jul. 16–18 1996 , Morgantown , West Virginia, US .
  • Sutyagina , A. A. and Perepelitsa , V. A. 1984 . Behavior of palladium electrodes poisoned with sulfur during cyclic anodic-cathodic polarization . Sov. Electrochem. (Elektrokhimiya) , 20 ( 8 ) : 1036
  • Dannetun , H. , Wilz , N. L. and Petersson , L.-G. 1996 . The study of alcohol induced hydrogen permeation in a catalytic membrane reactor . Surf. Sci. , 357 : 804
  • Chabot , J. , Lecomte , J. , Grumet , C. and Sannier , J. 1988 . Fuel clean-up system: Poisoning of palladium–silver membranes by gaseous impurities . Fusion Technol. , 14 : 614
  • Drioli , E. , Violante , V. and Basile , A. Membrane Separation Processes in the Fusion Fuel Cycle . Proc. 1990 Intl. Congress on Membranes and Membrane Processes . pp. 1040
  • Sakamoto , Y. , Chen , F. L. , Kinari , Y. and Sakamoto , F. 1996 . Effect of carbon monoxide on hydrogen permeation in some palladium-based alloy membranes . Int. J. Hydrogen Energy , 21 ( 11/12 ) : 1017
  • Wilzén , L. and Petersson , L.-G. 1995 . A membrane reactor for permeation and catalytic reaction studies . Vacuum , 46 ( 8–10 ) : 1237
  • Ziemecki , S. B. , Jones , G. A. and Swarzfager , D. G. 1987 . Coexistence of hydrogen and carbon solutes in the palladium lattice . J. Less-Common Met. , 131 : 157
  • Chen , F. L. , Kinari , F. , Sakamoto , Y. , Nakayama , Y. and Sakamoto , Y. 1996 . Hydrogen permeation through palladium-based alloy membranes in mixtures of 10% methane and ethylene in the hydrogen . Int. J. Hydrogen Energy , 21 ( 7 ) : 555
  • Yeung , K. L. and Wolf , E. E. 1993 . Scanning tunneling microscopy study of Pd thin film catalyst. I. Effect of the adsorbates and surface reaction on the film structure . J. Catal. , 143 ( 2 ) : 409
  • Galuszka , J. , Pandey , R. N. and Ahmed , S. 1998 . Methane conversion to syngas in a palladium membrane reactor . Catal. Today , 46 : 83
  • Behm , R. J. , Penka , V. , Cattania , M.-G. , Christmann , K. and Ertl , G. 1983 . Evidence for “subsurface” hydrogen on Pd(110): An intermediate between chemisorbed and dissolved species . J. Chem. Phys. , 78 ( 12 ) : 7486
  • Zolfaghari , A. , Villiard , F. , Chayer , M. and Jerkiewicz , G. 1997 . Hydrogen adsorption on Pt and Rh electrodes and blocking of adsorption sites by chemisorbed sulfur . J. Alloys Compd. , 253–254 : 481
  • Wilke , S. and Scheffler , M. 1996 . Mechanism of poisoning the catalytic activity of Pd(100) by a sulfur adlayer . Phys. Rev. Lett. , 76 ( 18 ) : 3380
  • Peden , H. F. , Kay , B. D. and Goodman , D. W. 1986 . Kinetics of hydrogen absorption by chemically modified Pd(110) . Surf. Sci. , 175 : 215
  • Eriksson , M. and Ekedahl , L.-G. 1998 . Real time measurements of hydrogen desorption and absorption during CO exposures of Pd: Hydrogen sticking and dissolution . Appl. Surf. Sci. , 133 : 89
  • Amandusson , H. , Ekedahl , L.-G. and Dannetun , H. 2000 . The effect of CO and O2 on hydrogen permeation through a palladium membrane . Appl. Surf. Sci. , 153 : 259
  • Gravil , P. A. and Toulhoat , H. 1999 . Hydrogen, sulphur and chlorine coadsorption on Pd(111): A theoretical study of poisoning and promotion . Surf. Sci. , 430 : 176
  • Koffler , S. A. , Hudson , J. B. and Ansell , G. S. 1969 . Hydrogen permeation through alpha–palladium . Trans. Metall. Soc. AIME , 245 : 1735
  • Bezvorotnyi , P. V. and Katsnel , M. G. 1991 . Aspects of the poisoning of palladium catalysts by sulfur compounds during gas-phase hydrogenation . J. Appl. Chem. USSR (Zh. Prikl. Khim.) , 63 ( 8 ) : 1742
  • Amano , M. , Nishimura , M. , Komaki , M. and Shida , M. Hydrogen Separating Membrane . JP Patent 1262924 . 1989 .
  • Edlund , D. J. and McCarthy , J. 1995 . The relationship between intermetallic diffusion and flux decline in composite–metal membranes: Implications for achieving long membrane lifetime . J. Membr. Sci. , 107 : 147
  • Abdullaev , R. M. and Tontegode , A. Y. 1980 . Effect of carbon dissolution and segregation in palladium on the catalytic, optical, and electric properties . Sov. Phys. Tech. Phys. (Zh. Tekh. Fiz.) , 25 ( 3 ) : 346
  • Stachurski , J. and Frackiewicz , A. 1985 . A new phase in the Pd–C system formed during the catalytic hydrogenation of acetylene . J. Less-Common Met. , 108 : 249
  • Siller , R. H. , Oates , W. A. and McLellan , R. B. 1968 . The solubility of carbon in palladium and platinum . J. Less-Common Met. , 16 : 71
  • Ziemecki , S. B. and Jones , G. A. 1985 . Interstitial carbon in palladium . J. Catal. , 95 : 621
  • Ziemecki , S. B. , Jones , G. A. , Swartzfager , D. G. and Harlow , R. L. 1985 . Formation of interstitial Pd–C phase by interaction of ethylene, acetylene, and carbon monoxide with palladium . J. Am. Chem. Soc. , 107 : 4547
  • Harris , J. R. Coated Diffusion Membrane and Its Use . US Patent 4,536,196 . Aug. 20, 198. .
  • Harris , J. R. Palladium or a Palladium Alloy Hydrogen Diffusion Membrane Treated with a Volatile Compound of Silicon is Used to Separate Hydrogen from a Mixture of it with a Hydrocarbon . US Patent 4,313,013 . Jan. 26, 1982 .
  • Collins , J. P. 1997 . Rebuttal to the comments of J. Gunther Cohn on “catalytic dehydrogenation of propane in hydrogen permselective membrane reactors” . Ind. Eng. Chem. Res. , 36 : 2876
  • Cohn , J. G. 1997 . Comments on “catalytic dehydrogenation of propane in hydrogen permselective membrane reactors” . Ind. Eng. Chem. Res. , 36 : 2875
  • Skakunova , E. V. and Ermilova , M. M. 1988 . Hydrogenolysis of propane on a palladium–ruthenium alloy membrane catalyst . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 5 : 986
  • Gryaznov , V. M. , Ermilova , M. M. and Orekhova , N. V. 1998 . Reconstruction of the surface layer of platinum group metals in the thermal treatment in various gases and propane hydrogenolysis . Russ. Chem. Bull. (Izv. Akad. Nauk, Ser. Khim.) , 47 ( 6 ) : 1067
  • Glazunov , G. P. , Kosik , N. A. , Yuferov , V. B. , Svinarenko , A. P. and Azhazha , V. M. 1981 . Possible effects of sputtering of materials in thermonuclear power plants on the operation of membrane pumps . Sov. Phys. Tech. Phys. (Zh. Tekh. Fiz.) , 26 ( 10 ) : 1251
  • Koonce , J. , Yoshida , H. , Kveton , O. , Horikiri , H. and Haange , R. 1995 . Design of ITER plasma exhast processing systems . Fusion Technol. , 28 : 630
  • Manga , I. I. , Kondrasheva , V. S. , Vasil'ev , Y. B. and Gryaznov , V. M. 1993 . Mercury adsorption effect on hydrogen evolution reaction on platinum and palladium . Russ. J. Electrochem. (Elektrokhimiya) , 29 ( 4 ) : 486
  • Gryaznov , V. M. , Smirnov , V. S. and Slin'ko , M. G. 1976 . Binary Palladium Alloys as Selective Membrane Catalysts . Proc. 6th Intl. Congress on Catal. 1976 , London , England. Edited by: Bond , G. C. , Wells , P. B. and Tompkins , F. C. pp. 894 London : The Chemical Society .
  • Yamakawa , K. , Ege , M. , Ludescher , B. , Hirscher , M. and Kronmüller , H. 2001 . Hydrogen permeability measurement through Pd, Ni and Fe membranes . J. Alloys Compd. , 321 : 17
  • Yang , L. , Sakai , O. , Kosaka , S. , Kawae , T. and Takahashi , T. 1998 . Experimental Study on Hydrogen Permeation and Surface Property of Pd–Ag/Ceramic Composite Membranes . Proc. 5th Intl. Conf. Inorganic Membr. June 22–26 1998 , Nagoya , Japan. pp. 482
  • Serfass , E. J. Activated Surfaces Useful in the Production of Hydrogen . US Patent 3,448,035 . Jun. 3, 1969 .
  • Radjabov , T. D. , Alimova , L. Y. and Sharudo , A. V. 1984 . Low voltage hydrogen plasma interaction with palladium surface . J. Nucl. Mater. , 125 : 326
  • Aggarwal , S. , Monga , A. P. , Perusse , S. R. , Ramesh , R. , Ballarotto , V. , Williams , E. D. , Chalamala , B. R. , Wei , Y. and Reuss , R. H. 2000 . Spontaneous ordering of oxide nanostructures . Science , 287 : 2235
  • Wang , D. , Clewley , J. D. , Flanagan , T. B. , Balasubramaniam , R. and Shanahan , K. L. 2000 . Enhanced rates of hydrogen absorption resulting from oxidation of Pd or internal oxidation of Pd–Al alloys . J. Alloys Compd. , 298 : 261
  • Uchikawa , H. , Okazaki , T. and Sato , K. 1993 . New technique of activating palladium surface for absorption of hydrogen or deuterium . Jpn. J. Appl. Phys. , 32 ( 1 (11A) : 5095
  • Dobrokhotov , V. G. , Pavlova , L. F. and Gryaznov , V. M. 1983 . Effect of hydrogen on the adsorption of cyclohexane vapor on a palladium–ruthenium alloy . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 32 ( 5 ) : 890
  • Ustinova , T. S. , Smirnov , V. S. , Gryaznov , V. M. , Antoshin , G. V. , Shapiro , E. S. , Onwodi , F. A. , Shimulis , V. I. and Minachev , K. M. 1978 . Influence of a catalytic reaction on the surface composition and roughness factor of palladium–ruthenium alloys . React. Kinet. Catal. Lett. (Soobshch. Kinet. Katal.) , 9 ( 2 ) : 227
  • Clewley , J. D. , Curran , T. , Flanagan , T. B. and Oates , W. A. 1973 . Thermodynamic properties of hydrogen and deuterium dissolved in palladium at low concentrations over a wide temperature range . J. Chem. Soc., Faraday Trans. 1 , 69 : 449
  • Onwodi , F. A. , Shimulis , V. I. and Gryaznov , V. M. 1977 . Adsorption properties of membrane catalysts . React. Kinet. Catal. Lett. (Soobshch. Kinet. Katal.) , 6 ( 1 ) : 51
  • Farrauto , R. J. , Hobson , M. C. , Kennelly , T. and Waterman , E. M. 1992 . Catalytic chemistry of supported palladium for combustion of methane . Appl. Catal. A , 81 : 227
  • Chaston , J. C. 1965 . Reactions of oxygen with the platinum metals. III—the oxidation of palladium . Platinum Met. Rev. , 9 ( 4 ) : 126
  • Lee , K.-H. and Wolf , E. E. 1994 . Scanning probe microscopy studies of the activation and deactivation of Pd thin film catalysts . Stud. Surf. Sci. Catal. , 88 : 69
  • Ermilova , M. M. , Orekhova , N. V. , Skakunova , E. V. and Gryaznov , V. M. 1988 . Changes in the catalytic activity and hydrogen permeability of a palladium–ruthenium alloy membrane catalyst under the influence of reagents . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 37 ( 4 ) : 637
  • Maganyuk , A. P. , Gizhevskii , S. F. and Gryaznov , V. M. 1998 . Selective hydrogenation of dehydrolinalool and dehydroisophytol in a liquid film moving over Pd–Ru foil . Russ. J. Phys. Chem. , 72 ( 8 ) : 1244
  • Mikhalenko , N. N. , Khrapova , E. V. and Gryaznov , V. M. 1986 . Mutual relationship of the hydrogen permeability of membrane catalysts and of the composition of the hydrogenation products of cyclopentadiene . Russ. J. Phys. Chem. , 60 ( 9 ) : 1317
  • Ledoux , M. J. and Gault , F. G. 1979 . Correlation between surface structure and reaction mechanisms: Reactions of olefins on nickel and palladium films . J. Catal. , 60 : 15
  • Bryden , K. J. and Ying , J. Y. 1996 . Thermal stability and hydrogen absorption characteristics of palladium–yttrium nanoalloys . Acta Mater. , 44 ( 9 ) : 3847
  • Kirchheim , R. , Kownacka , I. and Filipek , S. M. 1993 . Hydrogen segregation at grain boundaries in nanocrystalline nickel . Scr. Metall. , 28 : 1229
  • Mütschele , T. and Kirchheim , R. 1987 . Segregation and diffusion of hydrogen in grain boundaries of palladium . Scr. Metall. , 21 : 135
  • Natter , H. , Schmeizer , M. , Janßen , S. and Hempelmann , R. 1997 . Nanocrystalline metals and oxides I: Pulsed electrodeposition . Ber. Bunsen-Ges. , 101 ( 11 ) : 1706
  • Stuhr , U. , Wipf , H. , Andersen , K. H. and Hahn , H. 2000 . Neutron scattering study of the vibrational behaviour of H-doped nanocrystalline Pd . Physica B , 276–278 : 882
  • Stuhr , U. , Striffler , T. , Wipf , H. , Natter , H. , Wettmann , B. , Janssen , S. , Hempelmann , R. and Hahn , H. 1997 . An investigation of hydrogen diffusion in nanocrystalline Pd by neutron spectroscopy . J. Alloys Compd. , 253–254 ( 1–2 ) : 393
  • Jaßnen , S. , Natter , H. , Hempelmann , R. , Striffler , T. , Stuhr , U. , Wipf , H. , Hahn , H. and Cook , J. C. 1997 . Hydrogen diffusion in nanocrystalline Pd by means of quasielastic neutron scattering . Nanostruct. Mater. , 9 : 579
  • Natter , H. , Wettmann , B. , Heisel , B. and Hempelmann , R. 1997 . Hydrogen in nanocrystalline palladium . J. Alloys Compd. , 253–254 : 84
  • Heinze , S. , Vuillemin , B. , Colson , J.-C. , Giroux , P. and Leterq , D. 1999 . Relation between grain size and hydrogen diffusion coefficient in an industrial Pd-23% Ag alloy . Solid State Ionics , 122 : 51
  • Doyle , D. M. , Palumbo , G. , Aust , K. T. , El-Sherik , A. M. and Erb , U. 1995 . The influence of intercrystalline defects on hydrogen activity and transport in nickel . Acta Metall. Mater. , 43 ( 8 ) : 3027
  • Harris , T. M. and Latanision , R. M. 1991 . Grain boundary diffusion of hydrogen in nickel . Metall. Trans. A , 22A : 351
  • Palumbo , G. , Doyle , D. M. , El-Sherik , A. M. , Erb , U. and Aust , K. T. 1991 . Intercrystalline hydrogen transport in nanocrystalline nickel . Scr. Metall. , 25 ( 3 ) : 679
  • Bucur , R. V. , Ersson , N. O. and Tong , X. Q. 1991 . Solubility and diffusivity of hydrogen in palladium and Pd77Ag23 containing lattice defects . J. Less-Common Met. , 172–174 : 748
  • Hagi , H. 1990 . Diffusion coefficient of hydrogen in palladium films prepared by RF sputtering . Mater. Trans., JIM , 31 ( 11 ) : 954
  • Revkevich , G. P. , Katsnel'son , A. A. and Khristov , V. 1988 . Time and orientation dependence in hydrogen-saturated palladium outgassing rates . Moscow Univ. Phys. Bull. , 43 ( 3 ) : 74
  • Klotsman , S. M. 1993 . Diffusion in nanocrystalline materials . Phys. Met. Metallogr. , 75 ( 4 ) : 386
  • Striffler , T. , Stuhr , U. , Wipf , H. , Hahn , H. and Egelhaaf , S. 2000 . The microstructure of hydrogen- and deuterium-doped nanocrystalline palladium studied by small-angle neutron scattering . Eur. Phys. J. B , 17 : 245
  • Striffler , T. , Stuhr , U. , Wipf , H. , Hahn , H. and Egelhaaf , S. 2000 . Small-angle neutron scattering on hydrogen- and deuterium-doped nanocrystalline palladium . Physica B , 276–278 : 880
  • Lee , M. W. , Wolf , R. J. and Ray , J. R. 1995 . Atomistic calculations of hydrogen loading in palladium . J. Alloys Compd. , 231 : 343
  • Kirchheim , R. 1981 . Interaction of hydrogen with dislocations in palladium—I. Activity and diffusivity and their phenomenological interpretation . Acta Metall. , 29 : 835
  • Kuji , T. , Uchida , H. , Sato , M. and Cui , W. 1999 . Thermodynamic properties of hydrogen in fine Pd powders . J. Alloys Compd. , 293–295 : 19
  • Eastman , J. A. , Thompson , L. J. and Kestel , B. J. 1993 . Narrowing of the palladium–hydrogen miscibility gap in nanocrystalline palladium . Phys. Rev. B , 48 ( 1 ) : 84
  • Wang , D. , Flanagan , T. B. and Balasubramaniam , R. 1999 . Hydrogen solubility as a probe for dislocation formation, rearrangement and annhilation in Pd and Pd/Al2O3 composites . Scr. Mater. , 41 ( 5 ) : 517
  • Sakamoto , Y. and Tabaru , N. 1981 . Diffusivity and solubility of hydrogen in annealed and cold rolled specimens of palladium . J. Jpn. Inst. Met. , 45 ( 10 ) : 1048
  • Horkans , J. 1980 . Film thickness effects on hydrogen sorption at palladium electrodes . J. Electroanal. Chem. , 106 : 245
  • Flanagan , T. B. and Noh , H. 1995 . Thermodynamics and hysteresis for hydrogen solution and hydride formation in Pd–Ni Alloys . Z. Naturforsch., A: Phys. Sci. , 50 : 475
  • Flanagan , T. B. and Lynch , J. F. 1976 . The effect of lattice defects on hydrogen solubility in palladium II. Interpretation of solubility enhancements . J. Less-Common Met. , 49 : 25
  • Gol'tsov , V. A. and Lobanov , B. A. 1985 . Changes induced in the substructure of palladium by hydrogen-phase hardening and subsequent annealing . Sov. Phys. Dokl. , 30 ( 7 ) : 613
  • Kotelva , R. V. and Glukhova , J. L. 1997 . Form changing of palladium plate under hydrogen treatment . Int. J. Hydrogen Energy , 22 ( 2/3 ) : 175
  • Spivak , L. V. , Skryabina , N. Y. , Kuznetsova , Y. V. and Gel'd , P. V. 1987 . Stress relaxation and creep during hydrogenation of palladium . Phys. Met. Metallogr. , 64 ( 4 ) : 157
  • Storms , E. and Talcott-Storms , C. 1991 . The effect of hydriding on the physical structure of palladium and on the release of contained tritium . Fusion Technol. , 20 ( 2 ) : 246
  • Timofeyev , N. I. , Gromov , V. I. , Berseneva , F. N. and Gol'tsov , V. A. 1980 . Influence of solute hydrogen on the mechanical properties of palladium . Phys. Met. Metallogr. , 49 ( 4 ) : 173
  • Takagi , S. and Sugeno , T. 1965 . Plastic deformation of Pd–H alloys . Jpn. J. Appl. Phys. , 4 ( 10 ) : 772
  • Rodina , A. A. , Gurevich , M. A. and Doronicheva , N. I. 1968 . The cause of the change in the stability of certain palladium–rhodium alloys on interaction with hydrogen . Russ. J. Phys. Chem. , 42 ( 7 ) : 959
  • Revkevich , G. P. , Katsnel'son , A. A. and Khristov , V. M. 1990 . Effect of hydrogen absorption on short range order in the alloy Pd+15 at% Cu . Russ. Metall. (Izv. Akad. Nauk SSSR, Met.) , 4 : 182
  • Kodes , Y. S. , Zakharov , A. B. , Timofeyev , M. I. and Gel'd , P. V. 1989 . Internal friction and spontaneous deformation due to the direct and reverse hydride transformation in palladium . Phys. Met. Metallogr. , 67 ( 6 ) : 123
  • Scholtus , N. A. and Hall , W. K. 1963 . Hysteresis in the palladium–hydrogen system . J. Chem. Phys. , 39 ( 4 ) : 868
  • Kagan , G. Y. , Koshelva , V. Y. , Gel'd , P. V. and Kurumchina , S. K. 1978 . Influence of α→γ phase transformation on the physico-mechanical properties of palladium and its alloys . Phys. Met. Metallogr. , 45 ( 5 ) : 109
  • Bucur , R. V. 1993 . Two-channel mechanism for diffusion of hydrogen in palladium and Pd77Ag23-alloy . Scr. Metall. , 29 : 457
  • Kajiwara , M. , Uemiya , S. , Kojima , T. and Kikuchi , E. 1998 . Hydrogen Permeation Through Composite CVD Membranes of Group-VIII Metals and Porous Alumina . Proc. 5th Intl. Conf. Inorganic Membr. June 22–26 1998 , Nagoya , Japan. pp. 250
  • Sakamoto , Y. , Hirata , S. and Nishikawa , H. 1982 . Diffusivity and solubility of hydrogen in Pd–Ag and Pd–Au alloys . J. Less-Common Met. , 88 : 387
  • Dong , W. , Ledentu , V. , Sautet , P. , Eichler , A. and Hafner , J. 1998 . Hydrogen absorption on palladium: A comparative theoretical study of different surfaces . Surf. Sci. , 411 : 123
  • Conrad , H. , Ertl , G. and Latta , E. E. 1974 . Adsorption of hydrogen on palladium single crystal surfaces . Surf. Sci. , 41 : 435
  • Polyakova , V. P. , Roshan , N. R. and Parfenova , N. I. 1980 . Recrystallization of palladium alloyed with ruthenium . Met. Sci. Heat Treat. Met. (Metalloved. Term. Obrab. Met.) , 22 ( 2 ) : 154
  • Bystritskii , V. M. , Gur'yanov , V. G. , Ionesyan , I. A. , Latyshev , V. V. , Malek , M. P. , Nikolaev , V. L. , Rivkis , L. A. and Stolupin , V. A. 1991 . Membrane filter for diffusion separation and production of ultrahigh-purity hydrogen isotopes . Instrum. Exp. Tech. (Prib. Tekh. Eksp.) , 34 ( 1 ) : 227
  • Clifford , J. E. , Kolic , E. S. and Faust , C. L. 1966 . Water electrolysis with a hydrogen-diffusion cathode . AIChE Symp. Ser. , 62 : 43
  • Gol'tsov , V. A. , Machikina , I. Y. and Timofeev , N. I. 1979 . Recrystallization of hydrogen-phase-hardened palladium . Dokl. Akad. Nauk SSSR , 24 ( 7 ) : 571
  • Gol'tsov , V. A. , Kirillov , V. A. , Karnaukh , O. I. , Volynskaya , V. G. and Gorban , S. V. 1982 . Recovery of mechanical and physical properties of hydrogen phase hardened palladium . Phys. Met. Metallogr. , 54 ( 2 ) : 149
  • Noh , H. , Luo , W. and Flanagan , T. B. 1993 . The effect of annealing pretreatment of Pd–Rh alloys on their hydrogen solubilities and thermodynamic parameters for H2 solution . J. Alloys Compd. , 196 : 7
  • Hughes , D. T. , Evans , J. and Harris , I. R. 1980 . The influence of order on hydrogen diffusion in the solid solution alloys Pd-5.75at.%Ce and Pd-8at.%Y . J. Less-Common Met. , 74 : 255
  • Doyle , M. L. , Wileman , R.C. J. and Harris , I. R. 1987 . Electrical resistance and hydrogen solubility anomalies in a Pd—8at.%Y solid solution alloy . J. Less-Common Met. , 130 ( 130 ) : 79
  • Gol'tsov , V. A. , Gel'd , P. V. and Kagan , G. E. 1971 . Influence of ordering and alloying on the hydrogen parameters of alloys . Phys. Met. Metallogr. , 32 ( 2 ) : 70
  • Makarov , V. M. , Veselov , I. N. , Vandyshev , A. B. and Timofeev , N. I. 1996 . Results of basic and applied research in hydrogen membrane technology . Chem. Pet. Eng. (Khim. Neft. Mashinostr.) , 32 ( 5 ) : 399
  • Wileman , R. C. and Harris , I. R. 1985 . The permeability behaviour of protium and deuterium through a Pd-7.5at.%Y membrane . J. Less-Common Met. , 109 : 367
  • Yeung , K. L. , Christiansen , S. C. and Varma , A. 1999 . Palladium composite membranes by electroless plating technique: Relationships between plating kinetics, film microstructure and membrane performance . J. Membr. Sci. , 159 : 107
  • Lobanov , V. V. , Klyuyeva , I. B. , Kagan , G. Y. , Ryabov , R. A. , Guk , Y. N. and Gel'd , P. V. 1979 . Influence of atomic ordering on the behaviour of hydrogen in the alloy Pd-20 W . Phys. Met. Metallogr. , 47 ( 3 ) : 176
  • Lobanov , V. V. , Ryadov , R. A. , Gel'd , P. V. and Kagan , G. E. 1980 . The activation energy of hydrogen diffusion in fcc metals and alloys . Sov. Phys. Tech. Phys. (Zh. Tekh. Fiz.) , 25 ( 6 ) : 732
  • Lobanov , V. V. , Kagan , G. E. , Gel'd , P. V. , Ryabov , R. A. and Guk , Y. N. 1978 . Hydrogen permeability of palladium–tungsten alloys . Russ. J. Phys. Chem. , 52 ( 10 ) : 1443
  • Guk , Y. N. , Kagan , G. E. , Lobanov , V. V. and Levin , E. S. 1982 . Solubility of hydrogen in dilute solid solutions of nickel and platinum in palladium . Russ. J. Phys. Chem. , 56 ( 5 ) : 712
  • Guk , Y. N. , Kagan , G. E. , Lobanov , V. V. , Levin , E. S. and Gel'd , P. V. 1981 . Hydrogen permeability of palladium–platinum alloys . Russ. Metall. (Izv. Akad. Nauk SSSR, Met.) , : 187
  • Gryaznov , V. M. , Gul'yanova , S. G. , Serov , Y. M. and Yagodovskii , V. D. 1981 . The hydrogenation of CO2 on a nickel-coated palladium–ruthenium membrane catalyst . Russ. J. Phys. Chem. , 55 ( 5 ) : 730
  • Jayaraman , V. , Lin , Y. S. , Pakala , M. and Lin , R. Y. 1995 . Fabrication of ultrathin metallic membranes on ceramic supports by sputter deposition . J. Membr. Sci. , 99 : 89
  • Wu , L.-Q. , Xu , N. and Shi , J. 2000 . Preparation of a palladium composite membrane by an improved electroless plating technique . Ind. Eng. Chem. Res. , 39 ( 2 ) : 342
  • Paglieri , S. N. , Foo , K. Y. , Way , J. D. , Collins , J. P. and Harper-Nixon , D. L. 1999 . A new preparation technique for Pd/alumina membranes with enhanced high temperature stability . Ind. Eng. Chem. Res. , 38 ( 5 ) : 1925
  • Nagamoto , H. and Inoue , H. 1977 . Sorption and desorption of hydrogen on palladium sheet . J. Chem. Soc. Jpn. (Nippon Kagaku Kaishi) , 9 : 1264
  • Lewis , F. A. 1995 . The palladium–hydrogen system: Structures near phase transition and critical points . Int. J. Hydrogen Energy , 20 ( 7 ) : 587
  • Flanagan , T. B. and Sakamoto , Y. 1994 . Hydrogen in disordered and ordered palladium alloys . Int. J. Hydrogen Energy , 19 ( 2 ) : 151
  • Lewis , F. A. 1982 . The palladium–hydrogen system . Platinum Met. Rev. , 26 ( 1 ) : 20
  • Lewis , F. A. 1982 . The palladium–hydrogen system: Part II of a survey of features . Platinum Met. Rev. , 26 ( 2 ) : 70
  • Lewis , F. A. 1982 . The palladium–hydrogen system: Part III: Alloy systems and hydrogen permeation . Platinum Met. Rev. , 26 ( 3 ) : 121
  • Antler , M. 1982 . The application of palladium in electronic connectors . Platinum Met. Rev. , 26 : 106
  • Chen , F. L. , Kinari , Y. and Sakamoto , Y. 1994 . The α/β hydrogen miscibility gaps in hydrogenated Pd–Y–In(Sn, Pb) ternary alloys . J. Alloys Compd. , 205 : 119
  • Chen , S.-K. , Wan , C.-M. , Liu , E.-H. , Chu , S.-B. , Liang , C.-Y. , Yuan , L.-J. and Wan , C.-C. 1996 . The microstructure of electrolytically deuterium loaded palladium rods . Fusion Technol. , 29 : 302
  • Belash , V. P. , Klimova , I. N. and Kormilets , V. I. 1997 . Electronic structure of PdH studied by x-ray photoelectron spectroscopy . Phys. Met. Metallogr. , 84 ( 2 ) : 134
  • De Ninno , A. , La Barbera , A. and Violante , V. 1997 . Deformations induced by high loading ratios in palladium–deuterium compounds . J. Alloys Compd. , 253–254 : 181
  • Wise , M.L. H. , Farr , J.P. G. and Harris , I. R. 1975 . X-ray studies of the α/β miscibility gaps of some palladium solid solution–hydrogen systems . J. Less-Common Met. , 41 : 115
  • Hunter , J. B. 1960 . A new hydrogen purification process . Platinum Met. Rev. , 4 ( 4 ) : 130
  • Sakamoto , Y. , Yuwasa , K. and Hirayama , K. 1982 . X-ray investigation of the absorption of hydrogen by several palladium and nickel solid solution alloys . J. Less-Common Met. , 88 : 115
  • Tovbin , Y. K. and Votyakov , E. V. 2000 . Evaluation of the influence of dissolved hydrogen on mechanical properties of palladium . Phys. Solid State (Fiz. Tverd. Tela) , 42 ( 7 ) : 1192
  • Bellanger , G. 1995 . Embrittlement of palladium and palladium–silver alloy cathode membranes by tritium . Fusion Technol. , 27 : 36
  • Goltsov , V. A. 1999 . The effects of hydrogen on the physical properties of palladium . Platinum Met. Rev. , 43 ( 3 ) : 116
  • Wolf , R. F. and Lee , M. W. 1994 . Pressure-composition isotherms for nanocrystalline palladium hydride . Phys. Rev. Lett. , 73 ( 4 ) : 557
  • Votyakov , E. V. , Vasyutkin , N. F. , Senyavin , M. M. and Tovbin , Y. K. 2001 . The effect of included hydrogen on the motion parameters of edge dislocations in palladium membranes . Prot. Met. (Zashch. Met.) , 37 ( 1 ) : 53
  • Aoki , K. , Ogata , Y. , Kusakabe , K. and Morooka , S. 1998 . Applicability of palladium membrane for the separation of protium and deuterium . Int. J. Hydrogen Energy , 23 ( 5 ) : 325
  • Tovbin , Y. K. and Votyakov , E. V. 2001 . Effect of interstitial hydrogen on the properties of palladium membranes . Russ. J. Phys. Chem. , 75 ( 4 ) : 640
  • Lewis , F. A. 1996 . Hydrogen in palladium and palladium alloys . Int. J. Hydrogen Energy , 21 ( 6 ) : 461
  • Jewett , D. N. and Makrides , A. C. 1965 . Diffusion of hydrogen through palladium and palladium–silver alloys . Trans. Faraday Soc. , 61 ( 505 ) : 932
  • Bellanger , G. and Rameau , J. J. 1997 . Determination of tritium adsorption and diffusion parameters in a palladium–silver alloy by electrochemical impedance analysis . Fusion Technol. , 32 : 94
  • Darling , A. S. and Yorke , J. M. 1960 . The ruthenium–palladium system . Platinum Met. Rev. , 4 ( 3 ) : 104
  • Carson , A. W. and Lewis , F. 1967 . Pressure-composition isotherms for the Pd+Ag+H system . Trans. Faraday Soc. , 63 : 1453
  • Zhang , W. , Luo , S. and Flanagan , T. B. 1999 . Hydrogen solution in homogeneous Pd–Fe alloys . J. Alloys Compd. , 293–295 : 1
  • Sakamoto , Y. , Baba , K. and Flanagan , T. B. 1988 . The effect of alloying of palladium on the hydrogen–palladium miscibility gap . Z. Phys. Chem. N.F. , 158 : 223
  • Züchner , H. and Rauf , T. 1991 . Electrochemical isotherm measurements on the Pd–H and PdAg–H systems . J. Less-Common Met. , 172–174 : 816
  • Wicke , E. and Frölich , K. 1989 . Electronic and elastic effects in the phase diagrams of binary Pd alloy hydrides . Z. Phys. Chem. N.F. , 163 : 35
  • McNicholl , R.-A. and Lewis , F. A. 1990 . The hydride phase miscibility gap in palladium-rare earth alloys . Platinum Met. Rev. , 34 ( 2 ) : 81
  • Fazle Kibria , A.K. M. and Sakamoto , Y. 2000 . The effect of alloying of palladium with silver and rhodium on the hydrogen solubility, miscibility gap and hysteresis . Int. J. Hydrogen Energy , 25 : 853
  • Fazle Kibria , A.K. M. and Sakamoto , Y. 1998 . Hysteresis of pressure-composition and electrical resistance-composition isotherms of palladium–silver alloys–hydrogen system . Mater. Sci. Eng., B , 53 : 256
  • Al-Ashab , S.T. S. and Harris , I. R. 1988 . Hydrogen solubility and the equilibrium pressure-composition itotherm for Pd–Eu alloys . Int. J. Hydrogen Energy , 13 ( 3 ) : 191
  • Latyshev , V. V. and Gur'yanov , V. G. 1988 . The interaction of hydrogen with palladium-based alloy membranes . Russ. J. Phys. Chem. , 62 ( 2 ) : 220
  • Cabrera , A. L. , Morales , E. and Armor , J. N. 1995 . Kinetics of hydrogen desorption from palladium and ruthenium–palladium foils . J. Mater. Res. , 10 ( 3 ) : 779
  • Sakamoto , Y. 1991 . Thermodynamics of solution of hydrogen in Pd–Cu and Pd–Cu–Au solid solution alloys . Ber. Bunsen-Ges. , 95 ( 6 ) : 680
  • Rodina , A. A. , Gurevich , M. A. , Doronicheva , N. I. and Mel'nikova , L. V. 1968 . Interaction of hydrogen with palladium–nickel alloys . Russ. J. Phys. Chem. , 42 ( 4 ) : 507
  • Éstrin , B. M. and Roizenman , R. M. 1972 . Purification of hydrogen by diffusion through a membrane made from a multicomponent palladium based alloy . J. Appl. Chem. USSR (Zh. Prikl. Khim.) , 45 ( 3 ) : 667
  • Rodina , A. A. , Gurevich , M. A. and Doronicheva , N. I. 1967 . Interaction of the alloy palladium-40 wt.% silver with hydrogen . Russ. J. Phys. Chem. , 41 ( 9 ) : 1286
  • Yoshida , H. , Okuno , K. , Naruse , Y. and Kashiwai , T. 1985 . Metallurgical considerations on Pd, Pd-alloy and their metal–hydrogen systems . Fusion Technol. , 8 : 2388
  • Yasumatsu , T. , Wan , J. L. , Matsuyama , M. and Watanabe , K. 1999 . Absorption of hydrogen isotopes by Pd–Pt alloys . J. Alloys Compd. , 293–295 : 900
  • Nuovo , M. , Mazzolai , F. M. and Lewis , F. A. 1976 . Studies of anelasticity in the palladium–silver–hydrogen system . J. Less-Common Met. , 49 : 37
  • Timofeev , N. I. , Berseneva , F. N. and Makarov , V. M. 1994 . New palladium-based membrane alloys for separation of gas mixtures to generate ultrapure hydrogen . Int. J. Hydrogen Energy , 19 ( 11 ) : 895
  • Kandasamy , K. , Lewis , F. A. , Sakamoto , Y. and Tong , X. Q. 1999 . Hydrogen pressure and electrical resistivity dependencies on hydrogen content in the Pd81Pt19Hn system . Int. J. Hydrogen Energy , 24 : 759
  • Mazzolai , F. M. and Lewis , F. A. 1985 . Elastic energy dissipation in the palladium–silver–hydrogen (deuterium) system. II. Zener effects . J. Phys. F: Met. Phys. , 15 : 1261
  • Nagy , Z. and Yonco , R. M. 1986 . Palladium/hydrogen membrane electrode for high temperature/high pressure aqueous solutions . J. Electrochem. Soc. , 133 ( 11 ) : 2232
  • Latyshev , V. A. , Gur'yanov , V. G. and Martynova , N. A. 1985 . Dilatation of membranous alloys V-1 in hydrogen and deuterium atmospheres . Phys. Met. Metallogr. , 60 ( 1 ) : 69
  • Ryumshina , T. A. and Illyashenko , S. P. 1999 . Study of stress and strain fields in an infinite plate exposed to hydrogen diffusion . Int. J. Hydrogen Energy , 24 : 825
  • Gol'tsov , V. A. , Glukhova , Z. L. and Kotel'va , R. V. 1997 . Shape change of a palladium plate upon one-side hydrogenation and subsequent degassing . Phys. Met. Metallogr. , 84 ( 5 ) : 567
  • Koshel' , V. I. , Latyshev , V. V. and Gol'tsov , V. A. 1984 . Thermal concentration dilation of V-2 membrane alloy in a hydrogen atmosphere . Sov. Mater. Sci. (Fiz.-Khim. Mekh. Mater.) , 20 ( 6 ) : 551
  • Latyshev , V. V. 1990 . Metal diffusion membranes and hydrogen isotope separation . Soc. At. Energ. (At. Energ.) , 68 ( 1 ) : 49
  • Latyshev , V. V. and Federov , S. A. 1989 . Dimensional and isotope effects of permeability of protium and deuterium in palladium membranes . Soviet Mater. Sci. (Fiz.-Khim. Mekh. Mater.) , 6 : 64
  • Ehlers , H. , Müller , P. and Rosenstock , B. Device for the Purification of Hydrogen . US Patent 3,251,173 . May 17, 1966 .
  • Eguchi , T. and Goto , R. Hydrogen Purification Apparatus . US Patent 3,368,329 . Feb. 13, 1968 .
  • Heuser , G. Hydrogen Diffusion Apparatus . US Patent 3,665,680 . May 30, 1972 .
  • Yamamoto , Y. and Goto , R. Palladium Alloy Permeable Wall for the Separation and Purification of Hydrogen . US Patent 3,155,467 . Nov. 3, 1964 .
  • Nørskov , J. K. and Besenbacher , F. 1987 . Theory of hydrogen interaction with metals . J. Less-Common Met. , 130 : 475
  • Itoh , N. , Xu , W.-C. and Sathe , A. M. 1993 . Capability of permeate hydrogen through palladium-based membranes for acetylene hydrogenation . Ind. Eng. Chem. Res. , 32 : 2614
  • Fazle Kibria , A.K. M. and Sakamoto , Y. 1999 . Hysteresis of pressure-composition and electrical resistance-composition isotherms of palladium–silver alloys–deuterium system . Int. J. Hydrogen Energy , 24 : 47
  • Artman , D. and Flanagan , T. B. 1973 . Diffusion of hydrogen in rhodium–palladium alloys . J. Phys. Chem. , 77 ( 23 ) : 2804
  • Tylkina , M. A. and Tsyganova , I. A. 1963 . Properties of palladium–rhenium alloys . Russ. J. Inorg. Chem. (Zh. Neorg. Khim.) , 8 ( 10 ) : 1229
  • Rubin , L. R. Hydrogen Diffusion Process . US Patent 3,172,742 . Mar. 9, 1965 .
  • Berseneva , F. N. , Timofeev , N. I. , Makarov , V. M. , Mikhailova , I. A. and Neuimina , S. V. 1991 . Effect of desorbed hydrogen on the properties of palladium–platinum alloyed with tungsten . Sov. Mater. Sci. (Fiz.-Khim. Mekh. Mater.) , 27 ( 6 ) : 72
  • Berseneva , F. N. , Zhmurko , G. P. , Neuymina , S. V. and Timofeyev , N. I. 1991 . Mechanical properties and hydrogen permeability of palladium–platinum alloys modified by niobium and tantalum . Phys. Met. Metallogr. , 72 ( 5 ) : 141
  • Kurakin , V. A. , Piven , V. A. , Zakharov , A. B. , Timofeyev , N. I. and Berseneva , F. N. 1991 . Volume and surface parameters of the interaction of hydrogen with palladium alloys . Phys. Met. Metallogr. , 71 ( 6 ) : 127
  • Berseneva , F. N. , Timofeev , N. I. and Zakharov , A. B. 1993 . Alloys of palladium with metals of the platinum group as hydrogen-permeable membrane components at high temperatures of gas separation . Int. J. Hydrogen Energy , 18 : 15
  • Berseneva , F. N. , Mikhailova , I. A. , Neuimina , S. V. and Timofeev , N. I. 1993 . Effect of hydrogenation on the mechanical and physical properties of the alloys of palladium with molybdenum . Phys. Met. Metallogr. , 77 ( 1 ) : 101
  • Sakamoto , Y. , Chen , F. L. , Furukawa , M. and Mine , K. 1990 . The (α+β) hydrogen miscibility gaps in hydrogenated palladium-rich Pd–Y(Gd)–Ag ternary alloys . J. Less-Common Met. , 166 : 45
  • Sakamoto , Y. , Chen , F. L. , Furukawa , M. and Noguchi , M. 1992 . Permeability and diffusivity of hydrogen in palladium-rich Pd–Y(Gd)–Ag ternary alloys . J. Alloys Compd. , 185 : 191
  • Tsyganova , I. A. , Roshan , N. R. , Polyakova , V. P. and Savitskiy , E. M. 1977 . Examination of the structure and properties of ternary Pd–Ru–(W, V, Ti) alloys . Russ. Metall. (Izv. Akad. Nauk SSSR, Met.) , : 191
  • Avertseva , I. N. and Raevskaya , M. V. 1994 . Hydrogen permeability and mechanical properties of palladium alloyed with ruthenium, samarium, yttrium, and neodymium . Phys. Met. Metallogr. , 77 ( 5 ) : 518
  • Timofeyev , N. I. and Berseneva , F. N. 1991 . The influence of dissolved hydrogen on the mechanical properties of alloys of palladium with rhodium . Phys. Met. Metallogr. , 72 ( 1 ) : 147
  • Goltsov , V. A. , Geld , P. V. , Kagan , G. E. , Timofeev , N. I. , Belyaev , I. F. , Mitjushov , V. A. and Kurumchina , S. K. Alloy on the Basis of Palladium for the Manufacture of Filtering Elements Used in Preparation of Hydrogen of Super-high Purity . US Patent 3,804,616 . Apr. 16, 1974 .
  • Berseneva , F. N. , Mikhaylova , I. A. and Timofeyev , N. I. 1992 . The influence of hydrogen on the phase composition and physico-mechanical properties of the membrane palladium-based alloy V-1 . Phys. Met. Metallogr. , 72 ( 2 ) : 151
  • Sarylova , M. E. , Mishchenko , A. P. , Gryaznov , V. M. and Smirnov , V. S. 1977 . Effect of composition of binary palladium alloys on direction of catalytic transformations of 1,2-cyclohexanediol . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 26 ( 2 ) : 389
  • Machikina , I. Y. , Barannikova , G. A. , Gol'tsov , V. A. , Latyshev , V. V. , Kurumchina , S. K. and Timofeev , N. I. 1985 . Mechanical and diffusion characteristics of palladium-base type V-3 phase-hardened alloys for hydrogen diffusion filters . Sov. Mater. Sci. (Fiz.-Khim. Mekh. Mater.) , 21 ( 1 ) : 97
  • Gol'tsov , V. A. , Latyshev , V. V. , Volkov , A. F. , Zvyagintsev , A. L. , Kuzin , A. P. , Kapyshev , V. K. and Fefelov , P. A. 1982 . Diffusion filter for hydrogen isotopes . Soc. At. Energ. (At. Energ.) , 52 ( 2 ) : 145
  • Gol'tsov , V. A. , Latyshev , V. A. , Timofeev , N. I. and Machikina , I. Y. 1977 . New palladium-base alloy V-2 for diffusion-type hydrogen filters . Izv. Vyssh. Uchebn. Zaved., Tsevetn. Metall. , : 117
  • Tebus , V. , Rivkis , L. , Arutunova , G. , Dmitrievsky , E. , Filin , V. , Golikov , Y. , Krivova , V. and Kapychev , V. 1999 . Investigation of palladium alloy properties degradation during long-time tritium exposure . J. Nucl. Mater. , 271–272 : 345
  • Latyshev , V. V. , Gol'tsov , V. A. and Federov , S. A. 1982 . Separation of hydrogen isotopes by metal membranes . Soc. At. Energ. (At. Energ.) , 53 ( 1 ) : 482
  • Skorodumov , B. G. , Ulanov , V. G. , Zhukovskaya , E. V. and Zhukovskii , O. A. 1997 . Investigation of stationary and diffusional concentration profiles of hydrogen isotopes in nuclear materials by the Neutron Elastic Recoil Detection (NERD) method . Phys. Met. Metallogr. , 83 ( 1 ) : 61
  • Goltsov , V. A. , Timofeev , N. I. and Guschin , S. G. Palladium-based Alloy . US Patent 4,063,937 . Dec. 20, 1977 .
  • Cornell , D. A. and Seymour , E.F. W. 1975 . Nuclear magnetic resonance study of hydrogen diffusion in palladium and palladium–cerium alloys . J. Less-Common Met. , 39 : 43
  • Ramaprabhu , S. 1998 . Thermodynamics and stability of dissolved hydrogen in Pd rich binary Pd1−xZx and ternary Pd1−x−yZxZy' solid solution alloys . Int. J. Hydrogen Energy , 23 ( 9 ) : 787
  • Weiss , A. , Ramaprabhu , S. and Rajalakshmi , N. 1997 . Hydrogen solubility and thermodynamics of hydrogen absorption in palladium-rich binary Pd1−xZx and ternary Pd1−x−yZxZy' solid solution alloys . Z. Phys. Chem. N.F. , 199 : 165
  • Yoshinari , O. , Matsuda , H. , Fukuhara , K. and Tanaka , K. 1997 . Hydrogen diffusivity and solubility in Pd–Y alloys . Mater. Trans., JIM , 38 ( 6 ) : 508
  • Sakamoto , Y. , Chen , F. L. and Kinari , Y. 1994 . Permeability and diffusivity of hydrogen through Pd–Y–In(Sn, Pb) alloy membranes . J. Alloys Compd. , 205 : 205
  • Sakamoto , Y. , Ishimaru , N. and Inoue , Y. 1992 . Solubility of hydrogen in palladium–yttrium–silver alloys . Ber. Bunsen-Ges. , 96 ( 2 ) : 128
  • Lewis , F. A. , Kandasamy , K. , McNicholl , R.-A. and Tong , X. Q. 1995 . Hydrogen pressure-hydrogen content and electrical resistance-hydrogen content relationships of palladium and palladium alloy–hydrogen systems . Int. J. Hydrogen Energy , 20 ( 5 ) : 369
  • Yoshihara , M. and McLellan , R. B. 1988 . Palladium–cerium–hydrogen solid solutions—I. Thermodynamic properties . Acta Metall. Mater. , 36 ( 12 ) : 3217
  • Yoshihara , M. and McLellan , R. B. 1988 . Palladium–cerium–hydrogen solid solutions—II. Kinetic properties . Acta Metall. Mater. , 36 ( 12 ) : 3225
  • Yoshihara , M. and McLellan , R. B. 1988 . The thermodynamics of hydrogen in palladium–yttrium solid solutions . Acta Metall. Mater. , 36 ( 2 ) : 385
  • Hughes , D. T. and Harris , I. R. 1978 . A comparative study of hydrogen permeabilities and solubilities in some palladium solid solution alloys . J. Less-Common Met. , 61 : 9
  • Hughes , D. T. and Harris , I. R. 1979 . Hydrogen diffusion membranes based on some palladium-rare earth solid solution alloys . Z. Phys. Chem. N.F. , 117 : 185
  • Doyle , M. L. and Harris , I. R. 1988 . Palladium-rare earth alloys . Platinum Met. Rev. , 32 ( 3 ) : 130
  • Chen , F. L. 1991 . Hydrogen solubility in palladium–ytterbium solid solution alloys . J. Less-Common Met. , 172–174 : 56
  • Kandasamy , K. , Lewis , F. A. , McFall , W. D. and McNicholl , R.-A. 1989 . Atomic dimensional influences on patterns of p-c(n)-T and other relationships of palladium alloy–hydrogen systems . Z. Phys. Chem. N.F. , 163 : 41
  • McNicholl , R.-A. and Lewis , F. A. 1993 . Some features of p–n and R/R 0–n relationships of hydrogen systems of Pd alloys with metals in groups 3, 4 and 5 . Z. Phys. Chem. N.F. , 181 : 239
  • Farr , J.P. G. and Harris , I. R. Hydrogen Diffusion Membranes . US Patent 3,713,270 . Jan. 30, 1973 .
  • Fromageau , R. and Magnouche , A. 1985 . Solubility and Diffusion of Hydrogen in the Amorphous Alloy Pd80Si20 . Z. Phys. Chem. N.F. , 145 : 523
  • Astakhov , I. I. , Kazarinov , V. E. , Reznikova , L. A. and Teplitskaya , G. L. 1994 . Diffusion of hydrogen isotopes in palladium hydride and deuteride in the presence of lithium . Russ. J. Electrochem. (Elektrokhimiya) , 30 ( 12 ) : 1507
  • Allard , K. D. and Flanagan , T. B. 1970 . The diffusion of hydrogen in boron–palladium alloys . J. Phys. Chem. , 74 ( 2 ) : 298
  • McKinley , D. L. Metal Alloy for Hydrogen Separation and Purification . US Patent 3,350,845 . Nov. 7, 1967 .
  • Edlund , D. J. Composite Hydrogen Separation Element and Module . EP Patent 783919 . 1997 .
  • Knapton , A. G. 1977 . Palladium alloys for hydrogen diffusion membranes: A review of high permeability materials . Platinum Met. Rev. , 21 ( 2 ) : 44
  • Piper , J. 1966 . Diffusion of hydrogen in copper–palladium alloys . J. Appl. Phys. , 37 ( 2 ) : 715
  • Mishchenko , A. P. , Sarylova , M. E. , Gryaznov , V. M. , Smirnov , V. S. , Roshan , N. R. , Polyakova , V. P. and Savitskii , E. M. 1977 . Hydrogen permeability and catalytic activity of membranes made from palladium–copper alloys in the dehydrogenation of 1,2-cyclohexanediol . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 7 : 1490
  • McKinley , D. L. Method for Hydrogen Separation and Purification . US Patent 3,439,474 . Apr. 22, 1969 .
  • Karpova , R. A. and Tverdovskii , I. P. 1959 . Sorption of hydrogen by disperse palladium–copper alloys . Russ. J. Phys. Chem. , 33 ( 6 ) : 1393
  • Flanagan , T. B. and Chisdes , D. M. 1975 . Solubility of hydrogen (1 atm, 298 K) in some copper/palladium alloys . Solid State Commun. , 16 ( 5 ) : 529
  • Fisher , D. , Chisdes , D. M. and Flanagan , T. B. 1977 . Solution of hydrogen in palladium/copper alloys . J. Solid State Chem. , 20 : 149
  • Zetkin , A. S. , Kagan , G. E. , Varaksin , A. N. and Levin , E. S. 1992 . Diffusion and penetrability of deuterium in the alloy Pd-53 at.% Cu . Sov. Phys. Solid State (Fiz. Tverd. Tela) , 34 ( 1 ) : 83
  • Zetkin , A. S. , Kagan , G. Y. and Levin , Y. S. 1987 . Influence of structural transformations on the diffusion parameters of deuterium in palladium–copper alloys . Phys. Met. Metallogr. , 64 ( 5 ) : 130
  • Alefeld , G. 1980 . Metal hydrides in energy conversion systems . Trans., JIM (Proceedings of JIMIS—2. Hydrogen in Metals) , 21 ( Supplement ) : 25
  • Johansson , C. H. and Linde , J. O. 1925 . 3. Röntgenographische Bestimmung der Atomanordnung in den Mischkristallreihen Au–Cu und Pd–Cu . Ann. Phys. , 78 : 439
  • Vert , Z. L. and Drozdova , N. V. 1990 . Solubility of hydrogen in alloys of the palladium–copper system . J. Appl. Chem. USSR (Zh. Prikl. Khim.) , 63 ( 11 ) : 2365
  • Vert , Z. L. , Mosevich , I. A. and Tverdovskii , I. P. 1965 . X-ray study of the solubility of hydrogen in finely divided and in massive palladium . Russ. J. Phys. Chem. , 39 ( 5 ) : 566
  • Lianos , L. , Debauge , J. , Jugnet , Y. and Bertolini , J. C. 1997 . 1,3-butadiene hydrogenation on Pd50Cu50 single crystals . Catal. Lett. , 44 : 211
  • Tosti , S. , Violante , V. , Basile , A. , Chiappetta , G. , Castelli , S. , De Francesco , M. , Scaglione , S. and Sarto , F. 2000 . Catalytic membrane reactors for tritium recovery from tritiated water in the ITER fuel cycle . Fusion Eng. Des. , 49–50 ( 953-8 )
  • Tosti , S. , Bettinali , L. and Violante , V. 2000 . Rolled thin Pd and Pd–Ag membranes for hydrogen separation and production . Int. J. Hydrogen Energy , 25 ( 4 ) : 319
  • Gryaznov , V. M. , Maganyuk , A. P. , Gizhevskii , S. F. and Mardilovich , I. P. 1998 . New methods for liquid hydrogenation on supported metal catalysts . Dokl. Phys. Chem. , 362 ( 6 ) : 350
  • Adris , A. M. , Lim , C. J. and Grace , J. R. 1994 . The fluidized bed membrane reactor system: A pilot scale experimental study . Chem. Eng. Sci. , 49 ( 24B ) : 5833
  • Dobo , E. J. and Graham , T. E. Inorganic Anisotropic Hollow Fibers . US Patent 4,329,157 . May 11, 1982 .
  • Wachtman , J. B. Jr. and Haber , R. A. 1986 . New technology in the CPI: Ceramic films and coatings . Chem. Eng. Prog. , 82 ( 1 ) : 39
  • Basile , A. , Drioli , E. , Santella , F. , Violante , V. , Capannelli , G. and Vitulli , G. 1996 . A study on catalytic membrane reactors for water gas shift reaction . Gas Sep. Purif. , 10 ( 1 ) : 53
  • Mattox , D. M. 1999 . Physical vapor deposition (PVD) processes . Met. Finish. , 97 ( 1 ) : 417
  • Greene , J. E. 1982 . “ Chapter 13 ” . In Handbook of Deposition Technologies for Films and Coatings Edited by: Bunshah , R. F. Park Ridge , New Jersey, US : Noyes Publications .
  • Thornton , J. A. 1977 . High rate thick film growth . Annu. Rev. Mater. Sci. , 7 : 239
  • Machlin , E. S. 1995 . Materials Science in Microelectronics Croton-on-Hudson , NY : GIRO PRESS .
  • Gillet , E. , El Yakhloufi , M. H. , Disalvo , J.-P. and Abdelouahab , F. B. 1999 . In situ characterization of ultra-thin palladium deposits on α- and γ-alumina . Surf. Sci. , 419 : 216
  • Reichelt , K. and Jiang , X. 1990 . The preparation of thin films by physical vapour deposition methods . Thin Solid Films , 191 : 91
  • Murr , L. E. 1971 . Effects of substrate temperature, pressure, and high evaporation rates on nucleation, epitaxy, and structure of palladium thin films . Thin Solid Films , 7 : 101
  • McCool , B. , Xomeritakis , G. and Lin , Y. S. 1999 . Composition control and hydrogen permeation characteristics of sputter deposited palladium–silver membranes . J. Membr. Sci. , 161 : 67
  • Thomann , A.-L. , Rozenbaum , J. P. , Brault , P. , Andreazza-Vignole , C. and Andreazza , P. 2000 . Pd nanoclusters grown by plasma sputtering deposition on amorphous substrates . Appl. Surf. Sci. , 158 : 172
  • Marshall , I. J. Method and Apparatus for Linear Magnetron Sputtering . US Patent 5,298,137 . Mar. 29, 1994 .
  • Feurer , E. and Suhr , H. 1988 . Thin palladium films prepared by metal-organic plasma-enhanced chemical vapour deposition . Thin Solid Films , 157 : 81
  • Atanosova , P. , Bhaskaran , V. , Kodas , T. and Smith , H. M. 1996 . Oxidation resistance of copper alloy thin films formed by chemical vapor deposition . Mater. Res. Soc. Symp. Proc. , 428 : 25
  • Morooka , S. , Yan , S. , Yokoyama , S. and Kusakabe , K. 1995 . Palladium membrane formed in macropores of support tube by chemical vapor deposition with crossflow through a porous wall . Sep. Sci. Technol. , 30 ( 14 ) : 2877
  • Gazula , R. and Ward , T. L. 1997 . Controlled Deposition and Infiltration of Pd in Porous Substrates by MOCVD . Conference proceedings, AIChE Annual Mtg. Nov. 16–21 1997 , Los Angeles , California .
  • Xomeritakis , G. and Lin , Y. S. 1996 . Fabrication of a thin palladium membrane supported in a porous ceramic substrate by chemical vapor deposition . J. Membr. Sci. , 120 : 261
  • Gräfe , A. , Heinen , R. , Klein , F. , Kruck , T. , Scherer , M. and Schober , M. 1995 . Precursor development for the chemical vapor deposition of aluminium, copper and palladium . Appl. Surf. Sci. , 91 : 187
  • Natter , H. 1996 . Nanocrystalline palladium by pulsed electrodeposition . Ber. Bunsen-Ges. , 100 ( 1 ) : 55
  • Bryden , K. J. and Ying , J. Y. 1997 . Electrodeposition synthesis and hydrogen absorption properties of nanostructured palladium–iron alloys . Nanostruct. Mater. , 9 : 485
  • Bryden , K. J. and Ying , J. Y. 1998 . Pulsed electrodeposition synthesis and hydrogen absorption properties of nanostructured palladium–iron alloy films . J. Electrochem. Soc. , 145 ( 10 ) : 3339
  • Shu , J. , Grandjean , B.P. A. and Kaliaguine , S. 1993 . Autocatalytic effects in electroless deposition of palladium . J. Electrochem. Soc. , 140 ( 11 ) : 3175
  • Saubestre , E. B. 1962 . Electroless plating today . Met. Finish. , 60 ( 6 ) : 67
  • Saubestre , E. B. 1962 . Electroless plating today . Met. Finish. , 60 ( 7 ) : 49
  • Saubestre , E. B. 1962 . Electroless plating today . Met. Finish. , 60 ( 8 ) : 45
  • Saubestre , E. B. 1962 . Electroless plating today . Met. Finish. , 60 ( 9 ) : 59
  • Mallory , G. O. and Hajdu , J. B. 1990 . Electroless Plating Orlando , Florida : American Electroplaters and Surface Finishers Society .
  • Lukes , R. M. 1964 . The chemistry of the autocatalytic reduction of copper by alkaline formaldehyde . Plating , 51 : 1066
  • Iacovangelo , C. D. 1991 . Autocatalytic electroless gold deposition using hydrazine and dimethylamine borane as reducing agents . J. Electrochem. Soc. , 138 ( 4 ) : 976
  • Horkans , J. 1983 . A cyclic voltammetric study of Pd–Sn colloidal catalysts for electroless deposition . J. Electrochem. Soc. , 130 ( 2 ) : 311
  • Dubin , V. and Shacham-Diamond , Y. 1997 . Selective and blanket electroless copper deposition for ultralarge scale integration . J. Electrochem. Soc. , 144 ( 3 ) : 898
  • Nakahara , S. , Mak , C. Y. and Okinaka , Y. 1993 . Effect of the type of substrates on the ductility and microstructure of electroless copper deposits . J. Electrochem. Soc. , 140 ( 2 ) : 533
  • Ameen , J. G. , McBride , D. G. and Phillips , G. C. 1973 . Etching of high alumina ceramics to promote copper adhesion . J. Electrochem. Soc. , 120 ( 11 ) : 1518
  • Elmore , G. V. and Hershberger , R. F. 1974 . Molten alkali treatment of alumina surfaces for bonding to electroless copper . J. Electrochem. Soc. , 121 ( 1 ) : 107
  • Iacovangelo , C. D. , Jerabek , E. C. and King , R. N. 1994 . Ceramic metallization using molten salt and electroless plating . Plat. Surf. Finish. , 81 ( 1 ) : 54
  • De Graef , M. , Dalgleish , B. J. , Turner , M. R. and Evans , A. G. 1992 . Interfaces between alumina and platinum: Structure, bonding and fracture resistance . Acta Metall. Mater. , 40 : S333
  • Marturano , M. A. , Aglietti , E. F. and Ferretti , O. A. 1997 . Preparation and characterization of α-Al2O3 catalytic supports. Application to methane steam reforming . Ann. Chim. Sci. Mater. , 22 : 53
  • Honma , H. and Kanemitsu , K. 1987 . Electroless nickel plating on alumina ceramics . Plat. Surf. Finish. , 74 ( 9 ) : 62
  • Ocken , H. , Lin , C. C. and Lister , D. H. 1989 . Thin films to impede the incorporation of radionuclides in austenitic stainless steels . Thin Solid Films , 171 ( 2 ) : 323
  • Ocken , H. , Pound , B. G. and Lister , D. H. 1989 . Deposition and characterization of electroless palladium on austenitic stainless steel . Thin Solid Films , 171 : 313
  • Shu , J. , Grandjean , B.P. A. , Ghali , E. and Kaliaguine , S. 1993 . Simultaneous deposition of Pd and Ag on porous stainless steel by electroless plating . J. Membr. Sci. , 77 : 181
  • Buxbaum , R. E. Composite Metal Membrane for Hydrogen Extraction . US Patent 5,215,729 . 1993 .
  • Buxbaum , R. E. and Hsu , P. C. Method for Plating Palladium . US Patent 5,149,420 . Sep. 22, 1992 .
  • Mardilovich , P. P. , Kurman , P. V. , Govyadinov , A. N. , Mardilovich , I. P. , Paterson , R. and Gryaznov , V. M. 1996 . Gas permeability of anodized alumina membranes with a palladium–ruthenium alloy layer . Russ. J. Phys. Chem. , 70 ( 3 ) : 514
  • Abys , J. A. and Straschil , H. K. Acidic Palladium Strike Bath . EP Patent 512724 . 1995 .
  • Straschil , H. K. , Abys , J. A. , Kudrak , E. J. , Maisano , J. J. and Nakahara , S. 1992 . New palladium strike improves adhesion and porosity . Met. Finish. , 90 ( 1 ) : 42
  • Leibowitz , G. and Mullaney , R. L. Electroless Nickel Plating . US Patent 3,597,266 . Aug. 3, 1971 .
  • Rhoda , R. N. 1963 . Electroless plating with precious metals . Plating , 50 : 307
  • Rhoda , R. N. 1961 . Barrel plating by means of electroless palladium . J. Electrochem. Soc. , 108 : 707
  • Rhoda , R. N. 1959 . Electroless palladium plating . Trans. Inst. Met. Finish. , 36 : 82
  • Ohno , I. 1991 . Electrochemistry of electroless plating . Mater. Sci. Eng. , A146 : 33
  • Rothschild , B. F. and Nabors , R. G. 1964 . Quantitative adhesion measurements of electroless copper to copper and gold . Plating , 51 ( 11 ) : 1063
  • Lea , C. and Whitlaw , K. J. 1986 . The importance of electrokinetic potential in the catalysis of electroless copper on epoxy-glassfibre laminates . Trans. Inst. Met. Finish. , 64 : 124
  • Baylis , B.K. W. , Huang , C.-C. and Schlesinger , M. 1979 . A study of the products of ultraviolet irradiation of palladium-containing catalysts for electroless metal deposition . J. Electrochem. Soc. , 126 ( 3 ) : 394
  • Besenhard , J. O. , Krebber , U. , Hörber , J.K. H. , Kanani , N. and Meyer , H. 1989 . A STM study of Pd-catalyst for electroless Cu deposition on nonconductors by means of a modified graphite substrate . J. Electrochem. Soc. , 136 ( 12 ) : 3608
  • Charbonnier , M. , Romand , M. , Harry , E. and Alami , M. 2001 . Surface plasma functionalization of polycarbonate: Application to electroless nickel and copper plating . J. Appl. Electrochem. , 31 : 57
  • Charbonnier , M. , Alami , M. and Romand , M. 1996 . Plasma treatment process for palladium chemisorption onto polymers before electroless deposition . J. Electrochem. Soc. , 143 ( 2 ) : 472
  • Cohen , R. L. and Meek , R. L. 1976 . The chemistry of palladium–tin colloid sensitizing processes . J. Colloid Interface Sci. , 55 ( 1 ) : 156
  • de Minjer , C. H. and v.d. Boom , P.F. J. 1973 . The nucleation with SnCl2–PdCl2 solutions of glass before electroless plating . J. Electrochem. Soc. , 120 ( 12 ) : 1644
  • Dressick , W. J. , Kondracki , L. M. , Chen , M.-S. , Brandow , S. L. , Matijevic , E. and Calvert , J. M. 1996 . Characterization of a colloidal Pd(II)-based catalyst dispersion for electroless metal deposition . Colloids Surf., A , 108 ( 1 ) : 101
  • Feldstein , N. and Weiner , J. A. 1973 . Surface characterization of sensitized and activated teflon . J. Electrochem. Soc. , 120 ( 4 ) : 475
  • Feldstein , N. , Weiner , J. A. and Schnable , G. L. 1972 . Some aspects of the chemistry of tin sensitizing solutions . J. Electrochem. Soc. , 119 ( 11 ) : 1486
  • Feldstein , N. and Weiner , J.A. T. 1972 . The effectiveness of tin sensitizer solutions . Plat. Surf. Finish. , 59 ( 2 ) : 140
  • Flis , J. and Duquette , D. J. 1984 . Initiation of electroless nickel plating on copper, palladium-activated copper, gold, and platinum . J. Electrochem. Soc. , 131 ( 2 ) : 254
  • Froment , M. , Queau , E. , Martin , J. R. and Stremsdoerfer , G. 1995 . Structural and analytical characteristics of adsorbed Pd–Sn colloids . J. Electrochem. Soc. , 142 ( 10 ) : 3373
  • Fujinami , T. , Watanabe , J. and Honma , H. 1996 . Catalytic activity and stability of mixed PdCl2/SnCl2 catalysts . Trans. Inst. Met. Finish. , 74 ( 6 ) : 193
  • Grunwald , J. J. , Gottesfeld , S. and Laser , D. 1981 . An Auger spectroscopic study of the catalysis process for electroless copper plating . Plat. Surf. Finish. , 68 ( 10 ) : 71
  • Horkans , J. 1984 . Comparison of the activity of PdSn colloidal catalysts with the activity of pure metals for HCHO oxidation: Enhancement of the activity by ionic tin . J. Electrochem. Soc. , 131 ( 8 ) : 1853
  • Horkans , J. , Sambucetti , C. and Markovich , V. 1984 . Initiation of electroless Cu plating on nonmetallic surfaces . IBM J. Res. Dev. , 28 ( 6 ) : 690
  • Lafferty , E. J. , Macauley , D. J. , Kelly , P. V. and Crean , G. M. 1997 . Atomic force microscopy investigation of the morphology of a UV photodefined palladium activation layer on alumina ceramic and the nucleation of electroless copper at the activated sites . Mater. Res. Soc. Symp. Proc. , 441 : 329
  • Matijevic' , E. , Poskanzer , A. M. and Zuman , P. 1975 . The characterization of the stannous chloride/palladium chloride catalysts for electroless plating . Plat. Surf. Finish. , 62 ( 10 ) : 958
  • Meek , R. L. 1975 . A Rutherford scattering study of catalyst systems for electroless Cu plating . J. Electrochem. Soc. , 122 ( 9 ) : 1177
  • Meek , R. L. 1975 . A Rutherford scattering study of catalyst systems for electroless Cu plating . J. Electrochem. Soc. , 122 ( 11 ) : 1478
  • Osaka , T. and Nagasaka , H. 1980 . An electron diffraction study on mixed PdCl2/SnCl2 catalysts for electroless plating . J. Electrochem. Soc , 127 ( 11 ) : 2343
  • Osaka , T. and Nagasaka , H. 1981 . Effects of activation and acceleration on magnetic properties of chemically deposited Co–P thin films . J. Electrochem. Soc. , 128 ( 8 ) : 1686
  • Osaka , T. , Takematsu , H. and Nihei , K. 1980 . A study on activation and acceleration by mixed PdCl2/SnCl2 catalysts for electroless metal deposition . J. Electrochem. Soc. , 127 ( 5 ) : 1021
  • Pearlstein , F. 1955 . Electroless nickel deposition: Activation of non-metallic surfaces . Met. Finish. , 53 ( 8 ) : 59
  • Pederson , L. R. 1982 . Comparison of stannous and stannic chloride as sensitizing agents in the electroless deposition of silver on glass using x-ray photoelectron spectroscopy . Sol. Energy Mater. , 6 : 221
  • Rantell , A. and Holtzman , A. 1973 . Mechanism of activation of polymer surfaces by mixed stannous chloride/palladium chloride catalysts . Trans. Inst. Met. Finish. , 51 : 62
  • Rantell , A. and Holtzman , A. 1974 . Mixed stannous chloride–palladium chloride activators: A study of their formation and nature . Plating , 61 ( 4 ) : 326
  • Schlesinger , M. and Kisel , J. 1989 . Effect of Sn(II)-based sensitizer adsorption in electroless deposition . J. Electrochem. Soc. , 136 ( 6 ) : 1658
  • Siperko , L. M. 1991 . Scanning tunneling microscopy studies of Pd–Sn catalyzed electroless Cu deposited on pyrolytic graphite . J. Vac. Sci. Technol., A , 9 ( 3 ) : 1457
  • Wang , Y. H. and Wan , C. C. 1982 . The kinetics of PdCl2/SnCl2 activating solutions for electroless plating . Plat. Surf. Finish. , 69 ( 8 ) : 59
  • Shafeev , G. A. , Themlin , J.-M. , Bellard , L. , Marine , W. and Cros , A. 1996 . Enhanced adherence of area-selective electroless metal plating on insulators . J. Vac. Sci. Technol., A , 14 ( 2 ) : 319
  • Sricharoenchaikit , P. 1993 . Thin metal film formation using electroless plating . J. Electrochem. Soc. , 140 ( 7 ) : 1917
  • Keuler , J. N. , Lorenzen , L. , Sanderson , R. N. and Linkov , V. 1997 . Optimizing palladium conversion in electroless palladium plating of alumina membranes . Plat. Surf. Finish. , 84 ( 8 ) : 34
  • Norsworthy , B. E. 1977 . The theory and practice of electroless copper deposition and use of electroless plating in the electronics industry . Trans. Inst. Met. Finish. , 55 : 31
  • Hulteen , J. C. and Martin , C. R. 1997 . A general template-based method for the preparation of nanomaterials . J. Mater. Chem. , 7 ( 7 ) : 1075
  • Hulteen , J. C. , Menon , V. P. and Martin , C. R. 1996 . Template preparation of nanoelectrode ensembles . J. Chem. Soc., Faraday Trans. , 92 ( 20 ) : 4029
  • Menon , V. P. and Martin , C. R. 1995 . Fabrication and evaluation of nanoelectrode ensembles . Anal. Chem. , 67 ( 13 ) : 1920
  • Cohen , R. L. and West , K. W. 1972 . Solution chemistry and colloid formation in the tin chloride sensitizing process . J. Electrochem. Soc. , 119 ( 4 ) : 433
  • Sard , R. 1970 . The nucleation, growth, and structure of electroless copper deposits . J. Electrochem. Soc. , 117 ( 7 ) : 864
  • D'Amico , J. F. , De Angelo , M. A. , Henrickson , J. F. , Kenney , J. T. and Sharp , D. J. 1971 . Selective elec1troless metal deposition using patterned photo-oxidation of Sn(II) sensitized substrates . J. Electrochem. Soc. , 118 ( 10 ) : 1695
  • Kim , J. , Wen , S. H. , Jung , D. Y. and Johnson , R. W. 1984 . Microstructure evolution during electroless copper deposition . IBM J. Res. Dev. , 28 ( 6 ) : 697
  • Biswas , D. R. 1986 . Review: Deposition processes for films and coatings . J. Mater. Sci. , 21 : 2217
  • Deng , H. and Moller , P. 1993 . Effect of the substrate surface morphology on the porosity of electroless nickel coatings . Trans. Inst. Met. Finish. , 71 ( 4 ) : 142
  • Uzio , D. , Peureux , J. , Fendler , A. , Giroir-Ramsay , J. and Dalmon , J. 1993 . A platinum/γ–Al2O3–catalytic membrane: Preparation, morphological and catalytic characterizations . Appl. Catal. A , 96 ( 1 ) : 83
  • Lambert , C. K. and Gonzalez , R. D. 1999 . Activity and selectivity of a Pd/γ–Al2O3 catalytic membrane in the partial hydrogenation reactions of acetylene and 1,3-butadiene . Catal. Lett. , 57 : 1
  • Li , A. , Xiong , G. , Gu , J. and Zheng , L. 1996 . Preparation of Pd/ceramic composite membrane 1. Improvement of the conventional preparation technique . J. Membr. Sci. , 110 : 257
  • Gross , M. E. , Appelbaum , A. and Gallagher , P. K. 1987 . Laser direct-write metallization in thin palladium acetate films . J. Appl. Phys. , 61 ( 4 ) : 1628
  • Schrott , A. G. , Braren , B. and Saraf , R. 1994 . Laser assisted Pd seeding for electroless plating on SiO2 . Appl. Phys. Lett. , 64 ( 12 ) : 1582
  • Zhang , J.-Y. , Boyd , I. W. and Esrom , H. 1998 . Lamp-induced forward transfer: A new approach for deposition of metal films . J. Mater. Sci. Lett. , 17 : 2037
  • Zhang , J.-Y. and Boyd , I. W. 1998 . Investigations of photo-induced decomposition of palladium acetate for electroless copper plating . Thin Solid Films , 318 ( 1–2 ) : 234
  • Sun , Y.-M. and Khang , S.-J. 1988 . Catalytic membrane for simultaneous chemical reaction and separation applied to a dehydrogenation reaction . Ind. Eng. Chem. Res. , 27 ( 7 ) : 1136
  • Sun , Y.-M. and Khang , S.-J. 1990 . A catalytic membrane reactor: Its performance in comparison with other types of reactors . Ind. Eng. Chem. Res. , 29 : 232
  • Wu , L.-Q. , Xu , N. and Shi , J. 2000 . Novel method for preparing palladium membranes by photocatalytic deposition . AIChE J. , 46 ( 5 ) : 1075
  • Shu , J. , Grandjean , B.P. A. and Kaliaguine , S. 1994 . Morphological study of hydrogen permeable Pd membranes . Thin Solid Films , 252 ( 1 ) : 26
  • Shu , J. , Adnot , A. , Grandjean , B.P. A. and Kaliaguine , S. 1996 . Structurally stable composite Pd–Ag alloy membranes: Introduction of a diffusion barrier . Thin Solid Films , 286 ( 1–2 ) : 72
  • Shu , J. , Grandjean , B.P. A. and Kaliaguine , S. 1994 . Methane steam reforming in asymmetric Pd– and Pd–Ag/porous SS membrane reactors . Appl. Catal. A , 119 : 305
  • Souleimanova , R. S. , Mukasyan , A. S. and Varma , A. 1999 . Study of structure formation during electroless plating of thin metal-composite membranes . Chem. Eng. Sci. , 54 : 3369
  • Souleimanova , R. S. , Mukasyan , A. S. and Varma , A. 2000 . Effects of osmosis on microstructure of Pd-composite membranes synthesized by electroless plating technique . J. Membr. Sci. , 166 : 249
  • Yeung , K. L. and Varma , A. 1995 . Novel preparation techniques for thin metal–ceramic composite membranes . AIChE J. , 41 ( 9 ) : 2131
  • Yeung , K. L. , Sebastian , J. M. and Varma , A. 1995 . Novel preparation of Pd/Vycor composite membranes . Catal. Today , 25 ( 3–4 ) : 231
  • Yeung , K. L. , Aravind , R. , Zawada , R.J. X. , Szegner , J. , Cao , G. and Varma , A. 1994 . Nonuniform catalyst distribution for inorganic membrane reactors: Theoretical considerations and preparation techniques . Chem. Eng. Sci. , 49 ( 24A ) : 4823
  • Zheng , W. and Wu , L.-Q. 2000 . Preparation and pore size shrinkage of palladium–ceramic composite membrane by electroless plating under hydrothermal conditions . Mater. Sci. Eng., A , 283 : 122
  • Takahashi , T. and Kosaka , S. Gas Separator and Method for Preparing It . US Patent 5,980,989 . Nov. 9, 1999 .
  • Kosaka , S. , Sakai , O. , Takahashi , T. and Soma , T. Hydrogen Separator, Hydrogen Separating Apparatus and Method for Manufacturing Hydrogen Separator . US Patent 5,614,001 . Mar. 25, 1997 .
  • Bindra , P. and Tweedie , J. 1983 . Mechanisms of electroless metal plating: I. Application of the mixed potential theory . J. Electrochem. Soc. , 130 ( 5 ) : 1112
  • Chou , M. L. , Manning , N. and Chen , H. 1992 . Deposition and characterization of thin electroless palladium films from newly developed baths . Thin Solid Films , 213 : 64
  • Schumacher , R. , Pesek , J. J. and Melroy , O. R. 1985 . Kinetic analysis of electroless deposition of copper . J. Phys. Chem. , 89 : 4338
  • Bindra , P. , Light , D. and Rath , D. 1984 . Mechanisms of electroless metal plating: I. Mixed potential theory and the interdependence of partial reactions . IBM J. Res. Dev. , 28 ( 6 ) : 668
  • Athavale , S. N. and Totlani , M. K. 1989 . Electroless plating of palladium . Met. Finish. , 87 : 23
  • Bindra , P. , Roldan , J. M. and Arbach , G. V. 1984 . Mechanisms of electroless metal plating: II. Decomposition of formaldehyde . IBM J. Res. Dev. , 28 ( 6 ) : 679
  • Cheng , Y. S. and Yeung , K. L. 2001 . Effects of electroless plating chemistry on the synthesis of palladium membranes . J. Membr. Sci. , 182 : 195
  • Cheng , Y. S. and Yeung , K. L. 1999 . Palladium–silver composite membranes by electroless plating technique . J. Membr. Sci. , 158 ( 1–2 ) : 127
  • Zhao , H.-B. , Pflanz , K. , Gu , J.-H. , Li , A.-W. , Stroh , N. , Brunner , H. and Xiong , G.-X. 1998 . Preparation of palladium composite membranes by modified electroless plating procedure . J. Membr. Sci. , 142 : 147
  • Chou , M. L. and Chen , H. 1992 . The influence of boric acid and dissolved oxygen on the morphology of electroless palladium films . Thin Solid Films , 208 ( 2 ) : 210
  • Steinmetz , P. , Alperine , S. , Friant-Costantini , A. and Josso , P. 1990 . Electroless deposition of pure nickel, palladium and platinum . Surf. Coat. Technol. , 43/44 ( 1–3 ) : 500
  • Govind , R. and Atnoor , D. 1991 . Development of a composite palladium membrane for selective hydrogen separation at high temperature . Ind. Eng. Chem. Res. , 30 ( 3 ) : 591
  • Mallory , G. O. and Baudrand , D. W. Bath and Process for Chemical Metal Plating . US Patent 3,597,267 . Aug. 3, 1971 .
  • Vaiman , L. A. Apparatus and Method for Extracting Hydrogen . US Patent 5,205,841 . Apr. 27, 1993 .
  • Low , G. M. and Albright , C. F. Process for Separation of Dissolved Hydrogen from Water by Use of Palladium and Process for Coating Palladium with Palladium Black . US Patent 3,678,654 . Jul. 25, 1972 .
  • Shirogami , T. and Murata , K. 1982 . Cathodic H2 gas production through Pd alloy membrane electrodes . Int. J. Hydrogen Energy , 7 ( 11 ) : 877
  • Sokol'skii , D. V. , Nogerbekov , B. Y. , Gudeleva , N. N. and Kobets , N. V. 1988 . Hydrogen adsorption at palladium membranes . Sov. Electrochem. (Elektrokhimiya) , 24 ( 7 ) : 919
  • Skorodumov , B. G. , Yatsevich , I. O. and Zhukovsky , O. A. 1994 . Investigation of hydrogen isotope behaviour in palladium membrane cathodes in the process of water electrolysis by the NERD method . Nucl. Instrum. Methods Phys. Res., Sect. B , 85 : 301
  • Wynblatt , P. and Gjostein , N. A. 1976 . Particle growth in model supported metal catalysts—I. Theory . Acta Metall. Mater. , 24 : 1165
  • Wynblatt , P. 1976 . Particle growth in model supported metal catalysts—II. Comparison of experiment with theory . Acta Metall. Mater. , 24 : 1175
  • Matsuoka , M. , Yoshida , Y. and Iwakura , C. 1995 . The effects of aeration and accumulation of carbonate ions on the mechanical properties of electroless copper coatings . J. Electrochem. Soc. , 142 ( 1 ) : 87
  • Molenaar , A. , Holdrinet , F. E. and van Beek , L.K. H. 1974 . Kinetics of electroless copper plating with EDTA as the complexing agent for cupric ions . Plating , 61 ( 3 ) : 238
  • Bindra , P. and Roldan , J. 1985 . Mechanisms of electroless metal plating II. Formaldehyde oxidation . J. Electrochem. Soc. , 132 ( 11 ) : 2581
  • Uemiya , S. , Katoh , W. , Niizato , T. , Hatakeyama , N. , Kojima , T. , Mizumoto , K. and Doi , T. 2000 . Supported Palladium and Silver Alloy Membrane for Hydrogen Separation Prepared by Electroplating Technique . 6th Intl. Conf. Inorganic Membranes . June 26–30 2000 , Montpellier , France. pp. P205
  • Yu , G. , Li , L. and Yang , N. 1998 . Preparation of Pd–Ag Alloy Composite Membrane by Electroless Codeposition Plating . Proc. 5th Intl. Conf. Inorganic Membr. June 22–26 1998 , Nagoya , Japan. pp. 74
  • Sturzenegger , B. and Puippe , J. C. 1984 . Electrodeposition of palladium–silver alloys from ammoniacal electrolytes . Platinum Met. Rev. , 20 : 117
  • Belser , R. B. 1960 . Alloying behavior of thin bimetal films, simultaneously or successively deposited . J. Appl. Phys. , 31 ( 3 ) : 562
  • Bitler , W. R. , Pickering , H. W. and Kaja , S. 1985 . Interdiffusion kinetics of copper with palladium . Plat. Surf. Finish. , 72 ( 12 ) : 60
  • Bukaluk , A. 1999 . AES studies of interdiffusion in thin copper–palladium multilayer structures . Vacuum , 54 : 279
  • Langley , R. C. , Myers , M. and Myers , H. Method for Producing Hydrogen Diffusion Cells . US Patent 3,428,476 . Feb. 18, 1969 .
  • Sanders , A. P. Endothermal Water Decomposition Unit for Producing Hydrogen and Oxygen . US Patent 4,254,086 . Mar. 3, 1981 .
  • Xu , Z. R. and McLellan , R. B. 1998 . Hydrogen enhanced diffusional creep . Acta Mater. , 46 ( 13 ) : 4543
  • Noh , H. , Flanagan , T. B. and Sakamoto , Y. 1995 . Hydrogen-induced segregation in Pd–Pt alloys . J. Alloys Compd. , 231 : 10
  • Noh , H. , Clewley , J. D. , Flanagan , T. B. and Craft , A. P. 1996 . Hydrogen-induced phase separation in Pd–Rh alloys . J. Alloys Compd. , 240 : 235
  • Flanagan , T. B. and Noh , H. 1995 . A possible role for hydrogen-induced lattice migration in alloy materials processing . J. Alloys Compd. , 231 : 1
  • Flanagan , T. B. and Park , C.-N. 1999 . Hydrogen-induced rearrangements in Pd-rich alloys . J. Alloys Compd. , 293–295 : 161
  • Keuler , J. N. , Lorenzen , L. , Sanderson , R. D. , Prozesky , V. and Przybylowicz , W. J. 1999 . Characterization of electroless plated palladium–silver alloy membranes . Thin Solid Films , 347 ( 1–2 ) : 91
  • Keuler , J. N. , Lorenzen , L. , Sanderson , R. D. , Prozesky , V. and Przybylowicz , W. J. 1999 . Characterising palladium–silver and palladium–nickel alloy membranes using SEM, XRD and PIXE . Nucl. Instrum. Methods Phys. Res., Sect. B , 158 : 678
  • Yamauchi , S. , Taura , T. , Isogai , Y. and Seino , H. Hydrogen Permeable Membrane and Hydrogen Permeating Assembly . US Patent 3,469,372 . Sep. 30, 1969 .
  • Ogawa , M. , Kobayashi , T. , Sueda , M. , Matsumoto , T. , Imai , T. , Shirogane , S. , Shiota , H. , Uchida , T. and Ota , S. Hydrogen Separation Member . US Patent 5,782,960 . Jul. 21, 1998 .
  • Haley , F. C. Gas Analysis Systems and Palladium Tube Separator Therefor . US Patent 3,791,106 . Feb. 12, 1974 .
  • Bredesen , R. and Klette , H. Method of Manufacturing Thin Metal Membranes . US Patent 6,086,729 . Jul. 11, 2000 .
  • Soria , R. 1995 . Overview on industrial membranes . Catal. Today , 25 : 285
  • Krishnan , G. N. , Damle , A. S. , Sanjurjo , A. , Wood , B. J. and Lau , K.-H. 1995 . Thermal/Chemical Degradation of Inorganic Membrane Materials . Proceedings of the Advanced Coal-fired Power Systems '95 Review Meeting . 1995 , Morgantown , West Virginia, US . Edited by: McDaniel , H. , Mollot , D. J. and Venkataraman , V. K. pp. 667 US DOE .
  • Ha , H. Y. , Nam , S. W. , Lim , T. H. , Oh , I.-H. and Hong , S.-A. 1996 . Properties of the TiO2 membranes prepared by CVD of titanium tetraisopropoxide . J. Membr. Sci. , 111 : 81
  • Chang , C. H. , Gopalan , R. and Lin , Y. S. 1994 . A comparative study on thermal and hydrothermal stability of alumina, titania, and zirconia membranes . J. Membr. Sci. , 91 : 27
  • Lin , Y.-S. , Chang , C.-H. and Gopalan , R. 1994 . Improvement of thermal stability of porous nanostructured ceramic membranes . Ind. Eng. Chem. Res. , 33 : 860
  • Kim , J. and Lin , Y. S. 2000 . Palladium-modified yttria-stablilized zirconia membranes . Ind. Eng. Chem. Res. , 39 ( 6 ) : 2124
  • Jarosch , K. and de Lasa , H. I. 1999 . Novel riser simulator for methane reforming using high temperature membranes . Chem. Eng. Sci. , 54 : 1455
  • Masuda , H. , Nishio , K. and Baba , N. 1994 . Preparation of microporous metal membrane using two-step replication of interconnected structure of porous glass . J. Mater. Sci. Lett. , 13 ( 5 ) : 338
  • Itoh , N. , Shindo , Y. , Haraya , K. and Hakuta , T. 1988 . A membrane reactor using microporous glass for shifting equilibrium of cyclohexane dehydrogenation . J. Chem. Eng. Jpn. , 21 ( 4 ) : 399
  • Gryaznov , V. M. , Karavanov , A. N. , Krasil'nikova , O. K. , Chernyshova , G. L. and Patrikeev , A. V. 1981 . Palladium on mesoporous glass as a catalyst for hydrogenation of unsaturated compounds . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 30 ( 7 ) : 1353
  • Cannon , K. C. and Hacskaylo , J. J. 1992 . Evaluation of palladium-impregnation on the performance of a Vycor glass catalytic membrane reactor . J. Membr. Sci. , 65 : 259
  • Ha , H. Y. , Nam , S. W. , Hong , S.-A. and Lee , W. K. 1993 . Chemical vapor deposition of hydrogen-permselective silica films on porous glass supports from tetraethylorthosilicate . J. Membr. Sci. , 85 : 279
  • Randon , J. , Mardilovich , P. P. , Govyadinov , A. N. and Paterson , R. 1995 . Computer simulation of inorganic membrane morphology part 3. Anodic alumina films and membranes . J. Colloid Interface Sci. , 169 ( 2 ) : 335
  • Konno , M. , Shindo , M. , Sugawara , S. and Saito , S. 1988 . A composite palladium and porous aluminum oxide membrane for hydrogen gas separation . J. Membr. Sci. , 37 : 193
  • Itoh , N. , Tomura , N. , Tsuji , T. and Hongo , M. 2000 . Deposition of palladium inside straight mesopores of anodic alumina tube and its hydrogen permeability . Microporous Mesoporous Mater. , 39 : 103
  • Itoh , N. , Kato , K. , Tsuji , T. and Hongo , M. 1996 . Preparation of a tubular anodic aluminum oxide membrane . J. Membr. Sci. , 117 : 189
  • Zhao , H.-B. , Xiong , G.-X. and Baron , G. V. 2000 . Preparation and characterization of palladium-based composite membranes by electroless plating and magnetron sputtering . Catal. Today , 56 ( 1–3 ) : 89
  • de Vos , R. M. and Verweij , H. 1998 . High-selectivity, high-flux silica membranes for gas separation . Science , 279 : 1710
  • Yildirim , Y. , Gobina , E. and Hughes , R. 1997 . An experimental evaluation of high-temperature composite membrane systems for propane dehydrogenation . J. Membr. Sci. , 135 : 107
  • Gobina , E. , Hou , K. and Hughes , R. 1995 . Ethane dehydrogenation in a catalytic membrane reactor coupled with a reactive sweep gas . Chem. Eng. Sci. , 50 ( 14 ) : 2311
  • Gobina , E. , Hou , K. and Hughes , R. 1995 . Equilibrium-shift in alkane dehydrogenation using a high-temperature catalytic membrane reactor . Catal. Today , 25 ( 3–4 ) : 365
  • Gobina , E. and Hughes , R. 1994 . Ethane dehydrogenation using a high-temperature catalytic membrane reactor . J. Membr. Sci. , 90 : 11
  • Deng , J. and Wu , J. 1994 . Formaldehyde production by catalytic dehydrogenation of methanol in inorganic membrane reactors . Appl. Catal. A , 109 ( 1 ) : 63
  • Nam , S.-E. , Lee , S.-H. and Lee , K. H. 1999 . Preparation of a palladium alloy composite membrane supported in a porous stainless steel by vacuum electrodeposition . J. Membr. Sci. , 153 : 163
  • Garnier , O. , Shu , J. and Grandjean , B.P. A. 1997 . Membrane-assisted two-step process for methane conversion into hydrogen and higher hydrocarbons . Ind. Eng. Chem. Res. , 36 ( 3 ) : 553
  • Lin , Y.-M. and Rei , M.-H. 2001 . Study on the hydrogen production from methanol steam reforming in supported palladium membrane reactor . Catal. Today , 67 : 77
  • Li , A. , Liang , W. and Hughes , R. 1998 . Characterisation and permeation of palladium/stainless steel composite membranes . J. Membr. Sci. , 149 ( 2 ) : 259
  • Li , A. , Lian , W. and Hughes , R. 2000 . Fabrication of dense palladium composite membranes for hydrogen separation . Catal. Today , 56 ( 1–3 ) : 45
  • Pierce , R. W. Method for Making a Fine Porosity Filter Element . US Patent 3,241,298 . Mar. 22, 1966 .
  • Jemaa , N. , Shu , J. , Kaliaguine , S. and Grandjean , P. A. 1996 . Thin palladium film formation on shot peening modified porous stainless steel substrates . Ind. Eng. Chem. Res. , 35 : 973
  • Castelli , S. , Bimbi , L. , De Francesco , M. , Iasonna , A. , Tosti , S. and Violante , V. 1998 . Deposition of a Pd–Ag Film Alloy on Macroporous Ceramic Supports . 20th Symp. Fusion Technol. Sept. 7–11 1998 , Marseille , France. pp. 993
  • Ye , J. , Dan , G. and Yuan , Q. 1991 . The preparation of ultrathin palladium membrane . Key Eng. Mater. , 61,62 : 437
  • Edlund , D. , Newbold , D. and Frost , C. Composite Hydrogen Separation Element and Module . US Patent 5,645,626 . Jul. 8, 1997 .
  • Behr , F. , Kugler , B. , Pietsch , M. and Weirich , W. Non-porous Hydrogen Diffusion Membrane and Utilization thereof . US Patent 4,781,734 . Nov. 1, 1988 .
  • Hill , E. F. Hydrogen Separation Using Coated Titanium Alloys . US Patent 4,468,235 . Aug. 28, 1984 .
  • Buxbaum , R. E. and Hsu , P. C. 1992 . Measurement of diffusive and surface transport resistances for deuterium in palladium-coated zirconium membranes . J. Nucl. Mater. , 189 ( 1 ) : 183
  • Radzhabov , T. D. , Alimova , L. Y. , Zhukova , E. Y. and Melkumyan , F. S. 1980 . Effect of thin-film coatings on the hydrogen permeability of metals . Russ. J. Phys. Chem. , 54 ( 11 ) : 1605
  • Stokes , C. L. and Buxbaum , R. E. 1991 . Analysis of palladium coatings to remove hydrogen isotopes from zirconium fuel rods in Canada deuterium uranium-pressurized heavy water reactors: Thermal and neutron diffusion effects . Nucl. Technol. , 98 : 207
  • Gol'tsov , V. A. , Latyshev , V. V. and Alekhov , A. A. 1977 . A unit for measuring the parameters of penetration of hydrogen isotopes through metal membranes . Sov. Mater. Sci. (Fiz.-Khim. Mekh. Mater.) , 13 ( 3 ) : 338
  • Meunier , G. , Manaud , J.-P. and Devalette , M. 1981 . Étude comparative de la diffusion de l'hydrogène à travers des membranes d'alliage palladium–argent, de nickel et de monel . J. Less-Common Met. , 77 : P47
  • Meunier , G. and Manaud , J. P. 1992 . Thin film permeation membranes for hydrogen purification . Int. J. Hydrogen Energy , 17 ( 8 ) : 599
  • Meunier , G. , Manaud , J.-P. and Devalette , M. 1984 . Purification de l'hydrogene . Entropie , 20 ( 116–117 ) : 26
  • Telkov , V. I. , Andreev , L. A. and Malyutina , G. L. 1980 . The influence of surface processes on the permeability of thin nickel membranes to hydrogen . Russ. J. Phys. Chem. , 54 ( 11 ) : 1573
  • Stickney , R. E. , Bradley , T. L. , Kenney , T. E. and Levin , R. L. 1972 . Permeation of hydrogen through Ni, Fe, Pt, Nb, Cu, and stainless steel at elevated temperatures: Surface effects . Ber. Bunsen-Ges. , 76 ( 8 ) : 760
  • Brass , A. M. , Chene , J. and Boutry-Forveille , A. 1994 . SIMS analysis of deuterium distribution in palladium coatings on pure iron . Corros. Sci. , 36 ( 4 ) : 707
  • Baker , R. W. , Louie , J. , Pfromm , P. H. and Wijmans , J. G. Ultrathin Composite Metal Membranes . US Patent 4,857,080 . Aug. 15, 1989 .
  • Mercea , P. V. , Silipas , D. and Mecea , V. 1990 . Separation of a gas mixture through a polymer membrane metallized with palladium . Gas Sep. Purif. , 4 : 137
  • Beu , T. A. and Mercea , P.-V. 1990 . Gas transport through metallized polymer membranes . Mater. Chem. Phys. , 26 : 309
  • Mercea , P. , Muresan , L. and Mecea , V. 1985 . Permeation of gases through metallized polymer membranes . J. Membr. Sci. , 24 : 297
  • Mercea , P. , Muresan , L. , Silipas , D. and Ursu , I. 1988 . Permeation of gases through poly(ethyleneterephthalate) membranes metallized with palladium . J. Membr. Sci. , 35 : 291
  • Ermilova , M. M. , Gogua , L. D. , Gryaznov , V. M. and Zavodchenko , S. I. 1980 . Gas permeability of composite membrane catalysts . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 29 ( 4 ) : 529
  • Gryaznov , V. M. , Ermilova , M. M. , Zavodchenko , S. I. and Orekhova , N. V. 1993 . Hydrogen permeability of some metallopolymer membranes . Polym. Sci. U. S. S. R. (Vysokomol. Soedin., Ser. A) , 35 ( 3 ) : 365
  • Gryaznov , V. M. , Smirnov , V. S. , Vdovin , V. M. , Ermilova , M. M. , Gogua , L.D. , Pritula , N. A. and Litvinov , I. A. Method of Preparing a Hydrogen-permeable Membrane Catalyst on a Base of Palladium or Its Alloys for the Hydrogenation of Unsaturated Organic Compounds . US Patent 4,132,668 . Jan. 2, 1979 .
  • Gudeleva , N. N. , Nogerbekov , B. Y. and Mustafina , R. G. 1987 . Hydrogenation of sodium p-nitrophenoxide on a palladium-containing cation exchange membrane . Kinet. Catal. , 29 ( 6 ) : 1299
  • Gudeleva , N. N. , Nogerbekov , B. Y. , Mustafina , R. G. and Kobets , N. V. 1989 . Study of nitro group reduction on membrane catalysts in acid medium . J. Appl. Chem. USSR (Zh. Prikl. Khim.) , 62 ( 8 ) : 1698
  • Yu , Z. , Xu , Y. , Liao , S. and Liu , R. 1996 . Catalytic behaviors and gas permeation properties of palladium-containing phenophthalein poly(ether sulfone) . J. Appl. Polym. Sci. , 61 : 599
  • Gao , H. , Xu , Y. , Liao , S. , Liu , R. and Yu , D. 1993 . Catalytic hydrogenation and gas permeation properties of metal-containing poly(phenylene oxide) and polysulfone . J. Appl. Polym. Sci. , 50 : 1035
  • Fritsch , D. and Peinemann , K.-V. 1995 . Catalysis with homogeneous membranes loaded with nanoscale metallic clusters and their preparation . Catal. Today , 25 ( 3–4 ) : 277
  • Bottino , A. , Capannelli , G. , Grosso , A. , Monticelli , O. , Cavalleri , O. , Rolandi , R. and Soria , R. 1994 . Surface characterization of ceramic membranes by atomic force microscopy . J. Membr. Sci. , 95 : 289
  • Franz , A. J. , Jensen , K. F. and Schmidt , M. A. 1999 . Palladium Based Micromembranes for Hydrogen Separation and Hydrogenation/Dehydrogenation Reactions . 12th Intl. Workshop on Micro Electro Mechanical Systems—MEMS . Jan. 17–21 1999 , Orlando , Florida . pp. 382 Piscataway , New Jersey, US : IEEE .
  • Frankel , F. 1998 . Envisioning science—a personal perspective . Science , 280
  • Gol'stov , V. A. and Artemenko , Y. A. 1994 . Gaseous hydrogen pressure effects on the morphological and kinetic properties of the hydride transformations in a thermodynamically open palladium–hydrogen system . Phys. Met. Metallogr. , 78 ( 4 ) : 432
  • Jun , C. S. and Lee , K. H. 1999 . Preparation of palladium membranes from the reaction of Pd(C3H3)(C5H5) with H2: Wet-impregnated deposition . J. Membr. Sci. , 157 ( 1 ) : 107
  • Noh , H. , Flanagan , T. B. and Sakamoto , Y. 1993 . Hydrogen-induced segregation in Pd–Pt alloys . Scr. Metall. , 29 : 445
  • Batyrev , I. G. , Karavanov , A. N. , Leiro , J. A. and Heinonen , M. 1994 . X-ray photoelectron and Auger spectroscopic studies of surface segregation in Pd-based alloys . Russ. J. Phys. Chem. , 68 ( 8 ) : 1311
  • Batyrev , I. G. and Leiro , J. A. 1994 . Changes in the density of electron states caused by surface segregation in Pd–Ru, P–Ni, and Pd–Co alloys . Russ. J. Phys. Chem. , 68 ( 8 ) : 1315
  • Batirev , I. G. , Karavanov , A. N. , Leiro , J. A. , Heinonen , M. and Juhanoja , J. 1994 . X-ray photoelectron and Auger electron spectroscopies and surface segregations in Pd–Rh and Pd–Ru membrane catalysts . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 23 ( 1 ) : 50
  • Batirev , I. G. , Karavanov , A. N. , Leiro , J. A. , Heinonen , M. and Juhanoja , J. 1995 . X-ray photoelectron and Auger electron spectroscopies and surface segregations in Pd–Rh and Pd–Ru membrane catalysts . Surf. Interface Anal. , 23 ( 1 ) : 50
  • Haack , L. P. and Otto , K. 1995 . X-ray photoelectron spectroscopy of Pd/γ-alumina and Pd foil after catalytic methane oxidation . Catal. Lett. , 34 : 31
  • Asami , N. , Senjuh , T. , Kamimura , H. , Sumi , M. , Kennel , E. , Sakai , T. , Mori , K. , Watanabe , H. and Matsui , K. 1997 . Material characteristics and behaviour of highly deuterium loaded palladium by electrolysis . J. Alloys Compd. , 253–254 : 185
  • Antoniazzi , A. B. , Haasz , A. A. , Auciello , O. and Stangeby , P. C. 1984 . Atomic, ionic and molecular hydrogen permeation facility with in situ Auger surface analysis . J. Nucl. Mater. , 128 & 129 : 670
  • Ilias , S. , Su , N. , Udo-Aka , U. I. and King , F. G. 1997 . Application of electroless deposited thin-film palladium composite membrane in hydrogen separation . Sep. Sci. Technol. , 32 ( 1–4 ) : 487
  • Collins , J. P. and Way , J. D. Hydrogen-selective Membrane . US Patent 5,652,020 . Jul. 29, 1997 .
  • Shu , J. , Bongondo , B.E. W. , Grandjean , B.P. A. , Adnot , A. and Kaliaguine , S. 1993 . Surface segregation of Pd–Ag membranes upon hydrogen permeation . Surf. Sci. , 291 : 129
  • Shu , J. , Bongondo , B.E. W. , Grandjean , B.P. A. and Kaliaguine , S. 1997 . Morphological changes of Pd–Ag membranes upon hydrogen permeation . J. Mater. Sci. Lett. , 16 ( 4 ) : 294
  • Shu , J. , Grandjean , B.P. A. and Kaliaguine , S. 1995 . Asymmetric Pd–Ag/stainless steel catalytic membranes for methane steam reforming . Catal. Today , 25 ( 3–4 ) : 327
  • Shu , J. , Grandjean , B.P. A. and Kaliaguine , S. 1997 . Effect of Cu(OH)2 on electroless copper plating . Ind. Eng. Chem. Res. , 36 ( 5 ) : 1632
  • Shu , J. , Grandjean , B.P. A. and Kaliaguine , S. 1997 . Gas permeation and isobutane dehydrogenation over very thin Pd/ceramic membranes . Can. J. Chem. Eng. , 75 ( 4 ) : 712
  • Shu , J. , Grandjean , B.P. A. , Kaliaguine , S. , Ciaveralla , P. , Giroir-Fendler , A. and Dalmon , J.-A. 1995 . Ultrathin Pd/ceramic membranes: Preparation, permeation and application in isobutane dehydrogenation . Can. J. Chem. Eng. , 73 ( Nov. )
  • Huang , T.-C. , Wei , M.-C. and Chen , H.-I. 1998 . Study of Hydrogen Permeation Through Palladium/Alumina Composite Membranes . Proc. 5th Intl. Conf. Inorganic Membr. June 22–26 1998 , Nagoya , Japan. pp. 580
  • Allmendinger , T. Electrochemical Process for Manufacturing Membrane Based on Palladium and Supported Metallic Element . EP Patent 358727 . 1990 .
  • Iniotakis , N. , von der Decken , C.-B. , Fedders , H. , Fröhling , W. and Sernetz , F. Hydrogen Permeation Membrane . US Patent 4,699,637 . Oct. 13, 1987 .
  • Poschmann , T. Verwendung einer Metallmembranfolie aus einer Palladiumlegierung zur Wasserstoffabtrennung . EP Patent 908536A2 . 1998 .
  • 1996 . More effective hydrogen filters . Mech. Eng. , 118 ( 3 ) : 14
  • Winkelmann , U. , Schulten , R. , Weirich , W. , Kügler , B. , Lücke , L. , Oertel , M. , Pietsch , M. and Schmitz , J. 1986 . Nichtporöse Metallmembranen zur selektiven Abtrennung von Wasserstoff aus Gasgemischen bei hohen Temperaturen . Chem.-Ing.-Tech. , 58 ( 10 ) : 824
  • Behr , F. , Schulten , R. and Weirich , W. Diffusion Membrane and Process for Separating Hydrogen from Gas Mixture . US Patent 4,496,373 . Jan. 29, 1985 .
  • Fujimoto , Y. , Tadayyon , S.-M. , Yoshinari , O. and Tanaka , K. 1997 . Effect of hydriding on structural stability of Ni/Ti and Pd/Ti multilayers . Mater. Trans., JIM , 38 ( 9 ) : 780
  • Edlund , D. J. , Friesen , D. T. , Brooke , J. W. and LaChapelle , E. D. 1990 . Composition and Properties of a Novel Hydrogen-permeable Composite Metal Membrane . Proc. 1990 Intl. Congress on Membranes and Membr. Proc. 1990 . pp. 1019
  • Ma , Y. H. , Mardilovich , P. P. and She , Y. Hydrogen Gas-extraction Module and Method of Fabrication . US Patent 6,152,987 . Nov. 28, 2000 .
  • Franz , A. J. , Jensen , K. F. , Schmidt , M. A. and Firebaugh , S. Integrated Palladium-based Micromembranes for Hydrogen Separation and Hydrogenation/Dehydrogenation Reactions . WO Patent 0032512 . Jun. 8, 2000 .
  • Quiram , D. J. , Hsing , I.-M. , Franz , A. J. , Jensen , K. F. and Schmidt , M. A. 2000 . Design issues for membrane-based, gas phase microchemical systems . Chem. Eng. Sci. , 55 : 3065
  • Arita , T. , Yamanashi , T. , Okuno , K. and Yamamoto , I. 1998 . Experimental study of separative characteristics of cryogenic-wall thermal diffusion column for H–D and H–T mixtures . Fusion Eng. Des. , 39–40 : 1021
  • Yamamoto , I. , Kobayashi , N. and Kanagawa , A. 1995 . State of the art of separative analysis of cryogenic-wall thermal diffusion column for hydrogen isotope separation . Fusion Technol. , 28 : 785
  • Cui , T. , Fang , J. , Zheng , A. , Jones , F. and Reppond , A. 2000 . Fabrication of microreactors for dehydrogenation of cyclohexane to benzene . Sens. Actuators, B , B71 : 228
  • Xomeritakis , G. and Lin , Y. S. 1997 . Fabrication of thin metallic membranes by MOCVD and sputtering . J. Membr. Sci. , 133 ( 2 ) : 217
  • Bryden , K. J. and Ying , J. Y. 1995 . Nanostructured palladium membrane synthesis by magnetron sputtering . Mater. Sci. Eng., A , 204 ( 1 ) : 140
  • Yan , S. , Maeda , H. , Kusakabe , K. and Morooka , S. 1994 . Thin palladium membrane formed in support pores by metal-organic chemical vapor deposition method and application to hydrogen separation . Ind. Eng. Chem. Res. , 33 : 616
  • Kusakabe , K. , Yokoyama , S. , Morooka , S. , Hayashi , J.-i. and Nagata , H. 1996 . Development of supported thin palladium membrane and application to enhancement of propane aromatization on Ga-silicate catalyst . Chem. Eng. Sci. , 51 ( 11 ) : 3027
  • Wang , T. K. and Baker , J. W. Planar Palladium Structure . US Patent 5,734,092 . Mar. 31, 1998 .
  • Huang , L. , Chen , C. S. , He , Z. D. , Peng , D. K. and Meng , G. Y. 1997 . Palladium membranes supported on porous ceramics prepared by chemical vapor deposition . Thin Solid Films , 302 : 98
  • Nicolas , M. , Burger , J. P. and Dumoulin , L. 1989 . Hydrogen absorption at 170 K in thin Pd–Ni films . Z. Phys. Chem. N.F. , 163 : 67
  • Salomons , E. M. , Feenstra , R. , de Groot , D. G. , Rector , J. H. and Griessen , R. 1987 . Pressure-composition isotherms of thin PdHc films . J. Less-Common Met. , 130 : 415
  • Meng , G. Y. , Huang , L. , Pan , M. , Chen , C. S. and Peng , D. K. 1997 . Preparation and characterization of Pd and Pd–Ni alloy membranes on porous substrates by MOCVD with mixed metal β-diketone precursors . Mater. Res. Bull. , 32 ( 4 ) : 385
  • Deshpande , A. J. , Toops , T. , Collins , J. P. and Ward , T. L. 1995 . Fabrication of Metal Membranes by Aerosol–Particle and Chemical–Vapor–Deposition Routes . N. American Membr. Soc. 7th Annual Mtg. 1995 .
  • Liu , B. , Cao , Y. and Deng , J. 1997 . Catalytic dehydrogenation of ethanol in Ru-modified alumina membrane reactor . Sep. Sci. Technol. , 32 ( 10 ) : 1683
  • Li , A. , Xiong , G. , Gu , J. and Zheng , L. 1996 . Pd/Alumina Composite Membrane: A New Preparation Technique and Application in Catalytic Reaction . 4th International Conference on Inorganic Membranes . Jul. 14–18 1996 , Gatlinburg , Tennessee. Edited by: Fain , D. pp. 480
  • Zhao , H. B. , Xiong , G. X. , Gu , J. H. , Sheng , S. S. , Bauser , H. , Stroh , N. and Pflanz , K. 1995 . Preparation and characterization of novel porous metal/ceramic catalytic membrane materials . Catal. Today , 25 ( 3–4 ) : 237
  • Szegner , J. , Yeung , K. L. and Varma , A. 1997 . Effect of catalyst distribution in a membrane reactor: Experiments and model . AIChE J. , 43 ( 8 ) : 2059
  • Lee , S.-Y. , Lee , S.-J. , Kwon , S.-J. , Yang , S.-M. and Park , S. B. 1995 . Preparation of sol-gel driven alumina membrane modified by soaking and vapor deposition method . J. Membr. Sci. , 108 : 97
  • Uhlhorn , R.J. R. , Zaspalis , V. T. , Keizer , K. and Burggraaf , A. J. 1992 . Synthesis of ceramic membranes: Part II. Modification of alumina thin films: Reservoir method . J. Mater. Sci. , 27 : 538
  • Li , Z. Y. , Naeda , H. , Kusakabe , K. , Morooka , S. , Anzai , H. and Akiyama , S. 1993 . Preparation of palladium–silver alloy membranes for hydrogen separation by the spray pyrolysis method . J. Membr. Sci. , 78 : 247
  • Basile , A. , Violante , V. , Santella , F. and Drioli , E. 1995 . Membrane integrated system in the fusion reactor fuel cycle . Catal. Today , 25 ( 3–4 ) : 321
  • Basile , A. , Criscuoli , A. , Santella , F. and Drioli , E. 1996 . Membrane reactor for water gas shift reaction . Gas Sep. Purif. , 10 ( 4 ) : 243
  • Barbieri , G. and Di Maio , F. P. 1997 . Simulation of the methane steam re-forming process in a catalytic Pd-membrane reactor . Ind. Eng. Chem. Res. , 36 : 2121
  • Vitulli , G. , Pitzalis , E. , Salvadori , P. , Capannelli , G. , Monticelli , O. , Servida , A. and Julbe , A. 1995 . Porous Pt/SiO2 catalytic membranes prepared using mesitylene solvated Pt atoms as a source of Pt particles . Catal. Today , 25 ( 3–4 ) : 249
  • Fernandes , N. E. , Fisher , S. M. , Poshusta , J. C. , Vlachos , D. G. , Tsapatsis , M. and Watkins , J. J. 2001 . Reactive deposition of metal thin films within porous supports from supercritical fluids . Chem. Mater. , 13 ( 6 ) : 2023
  • Caga , I. T. , Winterbottom , J. M. and Harris , I. R. 1989 . Pd-based hydrogen diffusion membranes as catalysts in carbon monoxide hydrogenation . Catal. Lett. , 3 : 309
  • Caga , I. T. , Winterbottom , J. M. and Harris , I. R. 1987 . Pd-based diffusion membranes as ethylene hydrogenation catalysts . Inorg. Chim. Acta , 140 : 53
  • Sakai , O. , Kawae , T. and Takahashi , T. Apparatus for Recovering, Refining, and Storing Hydrogen Gas . EP Patent 0854111 . Jul. 22, 1998 .
  • Sakai , O. , Nakamura , S. , Kawae , T. and Yoshida , H. Production of Gas Separating Body . Japan Patent JP 8266876 . 1996 .
  • Kawae , T. , Kosaka , S. and Nakamura , S. Gas Separator . EP Patent 822161 . 1998 .
  • Kawae , T. , Takahashi , T. and Sakai , O. Apparatus for Keeping and Improving Purity of Hydrogen . Japan Patent JP 10203802 . 1998 .
  • Lu , S.-Y. and Lin , Y.-Z. 2000 . Pd–Ag alloy films prepared by metallorganic chemical vapor deposition process . Thin Solid Films , 376 : 67
  • Bryden , K. J. and Ying , J. Y. 1996 . Synthesis and structural characteristics of mechnically alloyed nanostructured palladium–yttrium . Mater. Sci. Forum. , 225–227 ( 2 ) : 895
  • Trudeau , M. L. , Bryden , K. J. , Braunovic , M. and Ying , J. Y. 1997 . Fretting studies of nanocrystalline Pd, Pd–Ag and Pd–Y films . Nanostruct. Mater. , 9 : 759
  • Weil , R. 1971 . The origins of stress in electrodeposits: Review of the literature dealing with stress in electrodeposited metals . Plating , 58 ( 2 ) : 137
  • Swanson , M. L. 1996 . Gas Separation and Hot-gas Cleanup: Topical Report, DE96004447 Grand Forks , North Dakota, US : University of North Dakota .
  • Mleczko , L. , Ostrowski , T. and Wurzel , T. 1996 . A fluidised-bed membrane reactor for the catalytic partial oxidation of methane to synthesis gas . Chem. Eng. Sci. , 51 ( 11 ) : 3187
  • Kumpmann , A. , Günther , B. and Kunze , H.-D. 1993 . Thermal stability of ultrafine-grained metals and alloys . Mater. Sci. Eng., A , 168 : 165
  • Foo , K. Y. 1995 . “ Hydrogen Separation in Palladium Ceramic Membranes and Palladium–Gold Ceramic Membranes ” . In M.S. Thesis Golden , Colorado, US : Colorado School of Mines .
  • Höllein , V. , Thornton , M. , Quicker , P. and Dittmeyer , R. 2001 . Preparation and characterization of palladium composite membranes for hydrogen removal in hydrocarbon dehydrogenation reactors . Catal. Today , 67 : 33
  • Paglieri , S. N. 1999 . “ Palladium and Palladium–Copper Composite Membranes for Hydrogen Separation ” . In Ph.D. Thesis Golden , Colorado, US : Colorado School of Mines .
  • Edlund , D. J. Composite Hydrogen Separation Element and Module . US Patent 5,498,278 . Mar. 12, 1996 .
  • Li , A. , Liang , W. and Hughes , R. 1999 . Repair of a Pd/α–Al2O3 composite membrane containing defects . Sep. Purif. Technol. , 15 ( 2 ) : 113
  • Morooka , S. and Kusakabe , K. 1999 . Microporous inorganic membranes for gas separation . MRS Bull. , 24 ( 3 ) : 25
  • Morooka , S. and Kusakabe , K. 2000 . Inorganic membranes for gas separation at elevated temperatures . Ind. Ceram. , 20 ( 1 ) : 15
  • Loy , D. A. 2000 . Development of New Hybrid Organic–Inorganic Materials for Hydrogen Separation Membranes at Sandia National Laboratories, SAND2000-1888C (DE00761835) Albuquerque , New Mexico, US : Sandia National Laboratory .
  • Tsapatsis , M. , Kim , S. , Nam , S. W. and Gavalas , G. 1991 . Synthesis of hydrogen permselective SiO2, TiO2, Al2O3, and B2O3 membranes from the chloride precursors . Ind. Eng. Chem. Res. , 30 : 2152
  • Prabhu , A. K. and Oyama , S. T. 2000 . Highly hydrogen selective ceramic membranes: Application to the transformation of greenhouse gases . J. Membr. Sci. , 176 : 233
  • Uhlhorn , R.J. R. , Keizer , K. and Burggraaf , A. J. 1992 . Gas transport and separation with ceramic membranes. Part II. Synthesis and separation properties of microporous membranes . J. Membr. Sci. , 66 : 271
  • Lee , L.-L. and Tsai , D.-S. 1999 . A hydrogen-permselective silicon oxycarbide membrane derived from polydimethlysilane . J. Am. Ceram. Soc. , 82 ( 10 ) : 2796
  • Gavalas , G. R. , Megiris , C. E. and Nam , S. W. 1989 . Deposition of H2-permselective SiO2 films . Chem. Eng. Sci. , 44 ( 9 ) : 1829
  • Raman , N. K. and Ward , T. L. 1993 . Catalyst dispersion on supported ultramicroporous inorganic membranes using derivatized silylation agents . Appl. Catal. A , 96 ( 1 ) : 65
  • Yan , S. , Maeda , H. , Kusakabe , K. , Morooka , S. and Akiyama , Y. 1994 . Hydrogen-permselective SiO2 membrane formed in pores of alumina support tube by chemical vapor deposition with tetraethyl orthosilicate . Ind. Eng. Chem. Res. , 33 : 2096
  • Morooka , S. and Kusakabe , K. 1996 . Separation of Hydrogen from H2–H2O–HBr System at High Temperature with Supported SiO2 Membrane . 11th World Hydrogen Energy Conference . 1996 , Stuttgart , Germany.
  • Ioannides , T. and Verykios , X. 1996 . Application of a dense silica membrane reactor in the reactions of dry reforming and partial oxidation of methane . Catal. Lett. , 36 : 165
  • Rao , M. B. , Sircar , S. and Golden , T. C. Gas Separation by Adsorbent Membranes . US Patent 5,104,425 . 1992 .
  • Thaeron , C. , Parrillo , D. J. , Sircar , S. , Clarke , P. F. , Paranjape , M. and Pruden , B. B. 1999 . Separation of hydrogen sulfide–methane mixtures by selective surface flow membrane . Sep. Purif. Technol. , 15 : 121
  • Shakhbazov , S. D. , Akhmedov , Z. G. , Rzaev , P. F. and Velieva , B. A. 1977 . Possibilities of separating water thermolysis products in solar furnaces . Appl. Sol. Energy (Geliotekhnika) , 13 ( 6 ) : 57
  • Sokol'skii , D. V. , Gudeleva , N. N. and Nogerbekov , B. Y. 1988 . Effect of sodium p-nitrophenolate hydrogenation on hydrogen permeation of nickel membranes . Sov. Electrochem. (Elektrokhimiya) , 24 ( 7 ) : 916
  • Sakamoto , Y. , Baba , K. , Kurahashi , W. , Takao , K. and Takayama , S. 1984 . Diffusion of hydrogen in some amorphous alloys . J. Non-Cryst. Solids , 61 & 62 : 691
  • Lee , Y. S. and Stevenson , D. A. 1985 . Hydrogen permeation in amorphous Cu–Ti and Pd–Si alloys . J. Non-Cryst. Solids , 72 : 249
  • Itoh , N. , Xu , W.-C. , Hara , S. , Kimura , H. M. and Masumoto , T. 1998 . Permeability of hydrogen in amorphous Pd(1−x)Six alloys at elevated temperatures . J. Membr. Sci. , 139 ( 1 ) : 29
  • Itoh , N. , Xu , W.-C. , Hara , S. , Kimura , H. M. and Masumoto , T. 1997 . Solubility of hydrogen in amorphous Pd1−xSix alloys as hydrogen permeable membranes . J. Membr. Sci. , 126 : 41
  • Itoh , N. , Machida , T. , Xu , W.-C. , Kimura , H. and Masumoto , T. 1995 . Amorphous Pd–Si alloys for hydrogen-permeable and catalytically active membranes . Catal. Today , 25 ( 3–4 ) : 241
  • Hara , S. , Sakaki , K. , Itoh , N. , Kimura , H.-M. , Asami , K. and Inoue , A. 2000 . An amorphous alloy membrane without noble metals for gaseous hydrogen separation . J. Membr. Sci. , 164 : 289
  • Enick , R. M. , Morreale , B. D. , Hill , J. , Rothenberger , K. S. , Cugini , A. V. , Siriwardane , R. V. , Poston , J. A. , Balachandran , U. , Lee , T. H. , Dorris , S. E. , Graham , W. J. and Howard , B. H. 2000 . “ Evaluation and Modeling of a High-temperature, High-pressure, Hydrogen Separation Membrane for Enhanced Hydrogen Production from the Water–Gas Shift Reaction ” . In Advances in Hydrogen Energy Edited by: Grégoire Padró , C. E. and Lau , F. 93 New York : Kluwer Academic/Plenum Publishers .
  • Norby , T. and Larring , Y. 2000 . Mixed hydrogen ion-electronic conductors for hydrogen permeable membranes . Solid State Ionics , 136–137 : 139
  • Condon , J. B. and Schober , T. 1995 . Proton conductors and metal hydrides . Solid State Ionics , 77 : 299
  • Mukundan , R. , Brosha , E. L. , Birdsell , S. A. , Costello , A. L. , Garzon , F. H. and Willms , R. S. 1999 . Tritium conductivity and isotope effect in proton-conducting perovskites . J. Electrochem. Soc. , 146 ( 6 ) : 2184
  • Marnellos , G. , Kyriakou , A. , Florou , F. , Angelidis , T. and Stoukides , M. 1999 . Polarization studies in the Pd|SrCe0.95Yb0.05O2.975|Pd proton conducting solid electrolyte cell . Solid State Ionics , 125 : 279
  • Vahldieck , N. P. and Wang , D.I. J. Method for Separating and Purifying Hydrogen by Permeation . US Patent 3,148,031 . Sep. 8, 1964 .
  • Dittrich , H. and Frey , H. Apparatus for Separating Gaseous Hydrogen Isotopes . US Patent 4,528,003 . Jul. 9, 1985 .
  • Teter , D. F. and Thoma , D. J. 2000 . The prediction of the hydriding thermodynamics of Pd–Rh–Co ternary alloys . Metall. Mater. Trans. B , 30 : 667
  • Sakaguchi , H. , Yagi , Y. , Shiokawa , J. and Adachi , G. 1989 . Hydrogen isotope separation using rare earth alloy films deposited on polymer membranes . J. Less-Common Met. , 149 : 185
  • Sakaguchi , H. , Nagai , H. , Adachi , G. and Shiokawa , J. 1986 . Hydrogen separation using LaNi5 films . J. Less-Common Met. , 126 : 83
  • Adachi , G.-Y. , Nagai , H. and Shiokawa , J. 1984 . LaNi5 film for hydrogen separation . J. Less-Common Met. , 97 : L9
  • Parrillo , D. J. , Thaeron , C. and Sircar , S. 1997 . Separation of bulk hydrogen sulfide–hydrogen mixtures by selective surface flow membrane . AIChE J. , 43 ( 9 ) : 2239
  • Sedigh , M. G. , Onstot , W. J. , Xu , L. , Peng , W. L. , Tsotsis , T. T. and Sahimi , M. 1998 . Experiments and simulation of transport and separation of gas mixtures in carbon molecular sieve membranes . J. Phys. Chem. , 102 ( 44 ) : 8580
  • Suda , H. and Haraya , K. 1997 . Alkene/alkane permselectivities of a carbon molecular sieve membrane . Chem. Commun. , : 93
  • Kusakabe , K. , Yamamoto , M. and Morooka , S. 1998 . Gas permeation and micropore structure of carbon molecular sieving membranes modified by oxidation . J. Membr. Sci. , 149 : 59
  • Sircar , S. , Rao , M. B. and Thaeron , C.M. A. 1999 . Selective surface flow membrane for gas separation . Sep. Sci. Technol. , 34 ( 10 ) : 2081
  • Snoek , J. L. and Haes , E. J. 1951 . Laboratory apparatus for the production of a steady flow of very pure hydrogen . Appl. Sci. Res. , A2 : 326
  • Liu , B. , Dai , W. , Wu , G. and Deng , J.-F. 1997 . Amorphous alloy/ceramic composite membrane: Preparation, characterization and reaction studies . Catal. Lett. , 49 : 181
  • Xue , D. , Chen , H. , Wu , G.-H. and Deng , J.-F. 2001 . Amorphous Ni–B alloy membrane: Preparation and application in ethanol dehydrogenation . Appl. Catal. , 214 : 87
  • Sakaguchi , H. , Shirai , H. , Nishioka , K. , Suenobu , T. , Tanaka , H. and Adachi , G. 1992 . Hydrogen permeability for oxide-metal multilayered films . J. Alloys Compd. , 185 : 295
  • Adris , A. M. , Elnashaie , S.S.E. H. and Hughes , R. 1991 . A fluidized bed membrane reactor for the steam reforming of methane . Can. J. Chem. Eng. , 69 : 1061
  • Cohn , J.G. E. and Pfefferle , W. C. Steam Reforming with Preliminary Hydrodesulfurization . US Patent 3,595,805 . Jul. 27, 1971 .
  • Kikuchi , E. , Nemoto , Y. , Kajiwara , M. , Uemiya , S. and Kojima , T. 2000 . Steam reforming of methane in membrane reactors: Comparison of electroless-plating and CVD membranes and catalyst packing modes . Catal. Today , 56 : 75
  • Barbieri , G. , Marigliano , G. , Perri , G. and Drioli , E. 2001 . Conversion-temperature diagram for a palladium membrane reactor. analysis of an endothermic reaction: Methane steam reforming . Ind. Eng. Chem. Res. , 40 ( 9 ) : 2017
  • Dicks , A. L. 1996 . Hydrogen generation from natural gas for the fuel cell systems of tomorrow . J. Power Sources , 61 : 113
  • Freni , S. , Calogero , G. and Cavallaro , S. 2000 . Hydrogen production from methane through catalytic partial oxidation reactions . J. Power Sources , 87 : 28
  • Xue , E. , O'Keeffe , M. and Ross , J.R. H. 1996 . Water–gas shift conversion using a feed with a low steam to carbon monoxide ratio and containing sulphur . Catal. Today , 30 : 107
  • Vasileiadis , S. and Ziaka , Z. 1999 . Alternative generation of H2, CO and H2, CO2 mixtures from steam-carbon dioxide reforming of methane and the water gas shift with permeable membrane reactors . Chem. Eng. Commun. , 176 : 247
  • Lægsgaard Jørgensen , S. , Højlund Nielsen , P. E. and Lehrmann , P. 1995 . Steam reforming of methane in a membrane reactor . Catal. Today , 25 : 303
  • Galuszka , J. Z. , Fouda , S. , Pandey , R. N. and Ahmed , S. Process for Producing Syngas and Hydrogen from Natural Gas Using a Membrane Reactor . US Patent 5,637,259 . Jun. 10, 1997 .
  • Kim , J.-H. , Choi , B.-S. and Yi , J. 1999 . Modified simulation of methane steam reforming in Pd-membrane packed-bed type reactor . J. Chem. Eng. Jpn. , 32 ( 6 ) : 760
  • Ettouney , H. M. , Masiar , B. , Bouhamra , W. S. and Hughes , R. 1996 . High temperature CO shift conversion (HTSC) using catalytic membrane reactors . Chem. Eng. Res. Des.: Trans. Inst. Chem. Eng., A , 74 ( 6 ) : 649
  • Vandyshev , A. B. , Murav'ev , L. L. , Makarov , V. M. and Usova , T. B. 2000 . Effect of reactions in the C–H–O system on the membrane extraction of especial-purity hydrogen . Chem. Pet. Eng. (Khim. Neft. Mashinostr.) , 36 ( 1–2 ) : 8
  • Criscuoli , A. , Basile , A. and Drioli , E. 2000 . An analysis of the performance of membrane reactors for the water–gas shift reaction using gas feed mixtures . Catal. Today , 56 ( 1–3 ) : 53
  • Murav'ev , L. L. , Vandyshev , A. B. and Makarov , V. M. 1999 . Modeling of membrane extraction of hydrogen from the products of steam conversion of hydrocarbons . Theor. Found. Chem. Eng. (Teor. Osn. Khim. Tekhnol.) , 33 ( 3 ) : 258
  • Gryaznov , V. M. , Manga , I. I. , Kondrasheva , V. S. , Petrii , O. A. and Tsirlina , G. A. 1996 . New possibilities of optimizing reduction of organic nitro compounds at a palladium membrane electrode modified with adatoms . Dokl. Phys. Chem. , 351 ( 4–6 ) : 326
  • Nogerbekov , B. Y. , Gudeleva , N. N. , Kobets , N. V. , Mustafina , R. G. and Fogel' , L. A. 1986 . Hydrogenation of sodium p-nitrophenolate on palladium and nickel membranes . J. Appl. Chem. USSR (Zh. Prikl. Khim.) , 59 ( 1 ) : 118
  • Nogerbekov , B. Y. and Gudeleva , N. N. 1996 . Reduction of the nitro group on palladium-containing membrane catalysts in alkaline solution . Russ. J. Phys. Chem. , 70 ( 3 ) : 458
  • Iwakura , C. , Abe , T. and Inoue , H. 1996 . A new successive system for hydrogenation of styrene using a two-compartment cell separated by a Pd sheet electrode . J. Electrochem. Soc. , 143 ( April ) : L71
  • Itoh , N. and Sathe , A. M. 1997 . Hydrogen transport from gas to liquid phase through a palladium membrane . J. Membr. Sci. , 137 : 251
  • Mondal , A. M. and Ilias , S. 2001 . Dehydrogenation of cyclohexane in a palladium–ceramic membrane reactor by equilibrium shift . Sep. Sci. Technol. , 36 ( 5 and 6 ) : 1101
  • Smirnov , V. S. , Ermilova , M. M. , Kokerova , N. V. and Gryaznov , V. M. 1975 . Selective hydrogenation of cyclopentadiene on membrane catalysts . Dokl. Akad. Nauk SSSR , 220 ( 3 ) : 64
  • Moustafa , T. M. , Ashour , I. and Elnashaie , S. S. 1999 . An integrated dehydrogenation hydrogenation membrane reactor for the simultaneous production of styrene and cyclohexane . Stud. Surf. Sci. Catal. , 122 : 229 – 236 .
  • Yeheskel , J. , Léger , D. and Courvoisier , P. 1978 . “ Thermal Decomposition of Hydroiodic Acid and Hydrogen Separation ” . In Proc. 2nd World Hydrogen Energy Conf., Zurich, Switzerland Edited by: Veziroglu , T. N. and Seifritz , W. 569 Elmsford , New York : Pergamon Press .
  • Reo , C. M. , Bernstein , L. A. and Lund , C.R. F. 1997 . Cocurrent membrane reactors vs. PFRs for shifting dehydrogenation equilibrium . AIChE J. , 43 ( 2 ) : 495
  • Prokopiev , S. I. , Aristov , Y. I. , Parmon , V. N. and Giordano , N. 1992 . Intensification of hydrogen production via methane reforming and the optimization of H2:CO ratio in a catalytic reactor with a hydrogen-permeable membrane wall . Int. J. Hydrogen Energy , 17 ( 4 ) : 275
  • Zhernosek , V. M. , Mikhalenko , N. N. , Iokhannes , S. , Khrapova , E. V. and Gryaznov , V. M. 1979 . Kinetic model for the hydrogenation of cyclopentadiene on a hydrogen-permeable catalyst . Kinet. Catal. , 20 ( 4 ) : 753
  • Raich , B. A. and Foley , H. C. 1998 . Ethanol dehydrogenation with a palladium membrane reactor: An alternative to wacker chemistry . Ind. Eng. Chem. Res. , 37 ( 10 ) : 3888
  • Gryaznov , V. M. and Slin'ko , M. G. 1981 . Selectivity in catalysis by hydrogen-porous membranes . Faraday Discuss. Chem. Soc. , 72 : 72
  • Ali , J. K. , Newson , E. J. and Rippin , D. W. 1994 . Exceeding equilibrium conversion with a catalytic membrane reactor for the dehydrogenation of methylcyclohexane . Chem. Eng. Sci. , 49 ( 13 ) : 2129
  • Ali , J. and Baiker , A. 1997 . Dehydrogenation of methylcyclohexane to toluene in a pilot-scale membrane reactor . Appl. Catal. A , 155 ( 1 ) : 41
  • Ali , J. K. and Baiker , A. 1996 . n-Heptane reforming in a system of reactors-interstage membrane to separate hydrogen . Appl. Catal. A , 140 ( 1 ) : 99
  • Armor , J. N. and Farris , T. S. 1993 . Membrane catalysis over palladium and its alloys . Stud. Surf. Sci. Catal. , 75 : 1363
  • Shindo , Y. , Itoh , N. and Haraya , K. 1989 . High performance reactor using a membrane . AIChE Symp. Ser. , 272 ( 85 ) : 80
  • Sirkar , K. K. , Shanbhag , P. V. and Kovvali , A. S. 1999 . Membrane in a reactor: A functional perspective . Ind. Eng. Chem. Res. , 38 ( 10 ) : 3715
  • Gobina , E. , Hou , K. and Hughes , R. 1998 . A comparative evaluation of high-temperature membrane systems for catalytic processing . Chem. Eng. Commun. , 166 : 157
  • Caruana , C. M. 1994 . Catalytic membranes beckon . Chem. Eng. Prog. , 90 ( Nov ) : 13
  • Gobina , E. , Hou , K. and Hughes , R. 1997 . A reactor-separator incorporating porous and dense membrane systems . J. Chem. Technol. Biotechnol. , 70 : 74
  • Pena , M.A. t.o.n. , Gómez , J. P. and Fierro , J.L. G. 1996 . New catalytic routes for syngas and hydrogen production . Appl. Catal. A , 144 : 7
  • Falconer , J. L. , Noble , R. D. and Sperry , D. P. 1995 . “ Catalytic Membrane Reactors ” . In Membrane Separations Technology. Principles and Applications Edited by: Noble , R. D. and Stern , S. A. 708 Elsevier Science B.V .
  • Hsieh , H. P. 1991 . Inorganic membrane reactors . Catal. Rev.-Sci. Eng. , 33 ( 1 & 2 ) : 1
  • Hsieh , H. P. 1996 . Inorganic Membranes for Separation and Reaction Amsterdam : Elsevier .
  • Drioli , E. and Criscuoli , A. 2000 . “ Microporous Inorganic and Polymeric Membranes as Catalytic Reactors and Membrane Contactors ” . In Recent Advances in Gas Separation by Microporous Ceramic Membranes , Membrane Science and Technology Series Edited by: Kanellopous , N. K. Vol. 6 , 497 New York : Elsevier .
  • Gryaznov , V. M. 1986 . Surface catalytic properties and hydrogen diffusion in palladium alloy membranes . Z. Phys. Chem. N.F. , 147 : 123
  • Gryaznov , V. M. , Ermilova , M. M. and Orekhova , N. V. 2001 . Membrane-catalyst systems for selectivity improvement in dehydrogenation and hydrogenation reactions . Catal. Today , 67 : 185
  • Aguilar , G. , Gryaznov , V. M. , Pavlova , L. F. and Yagadovski , V. D. 1977 . Conversion of cyclohexene on a gold-plated palladium–nickel membrane catalyst . React. Kinet. Catal. Lett. (Soobshch. Kinet. Katal.) , 7 ( 2 ) : 181
  • Basov , N. L. , Gryaznov , V. M. and Ermilova , M. M. 1993 . Hydrogenation of phenol to cyclohexanone on membrane catalysts . Russ. J. Phys. Chem. , 67 ( 12 ) : 2175
  • Boreskov , G. K. and Gryaznov , V. M. 1973 . New tendencies in the development of the science of catalysis . Kinet. Catal. , 14 ( 3 ) : 711
  • Denisov , G. N. , Kolyagin , V. A. , Yagodovskii , V. D. and Gryaznov , V. M. 1977 . The adsorption of cyclopentane, cyclopentene, and cyclopentadiene vapors on nickel and palladium films . Kinet. Catal. , 18 ( 3 ) : 588
  • Dobrokhotov , V. G. , Gryaznov , V. M. and Pavlova , L. F. 1983 . Effect of the hydrogen concentration on the adsorption and catalytic properties of a Pd–Ru alloy . J. Less-Common Met. , 89 : 585
  • Dobrokhotov , V. G. , Shalvashvili , E. A. , Pavlova , L. F. and Gryaznov , V. M. 1983 . Adsorption of C6 aliphatic hydrocarbons on Pd–Ru alloy . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 32 ( 7 ) : 1342
  • Dobrokhotov , V. G. , Pavlova , L. F. and Gryaznov , V. M. 1983 . Adsorption and hydrogenation of benzene on Pd–Ru alloy in a pulsed chromatographic regime . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 32 ( 5 ) : 893
  • Dobrokhotov , V. G. , Reies Romero , A. , Pavlova , L. F. and Gryaznov , V. M. 1984 . Conductometric study of the reaction of hydrogen, hexane, and cyclohexane with granular films of a palladium–ruthenium alloy . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 33 ( 12 ) : 2439
  • Edussuriya , M. , Mikhalenko , N. N. , Gul'yanova , S. G. , Gryaznov , V. M. and Gomes , P. 1994 . Adsorption of carbon monoxide on x-ray amorphous iron and its alloys with ruthenium . Russ. J. Phys. Chem. , 68 ( 11 ) : 1905
  • Enikolopov , N. S. , Gryaznov , V. M. , Solov'eva , A. B. , Rish , I. G. , Zavodchenko , S. I. and Ermilova , M. M. 1985 . The reduction of the central manganese ion in MnCl tetraphenylporphyrinate upon hydrogen diffusion through a palladium membrane . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 3 : 629
  • Ermilova , M. M. , Basov , N. L. , Smirnov , V. S. , Rumyantsev , A. N. and Gryaznov , V. M. 1979 . Monomerization of dicyclopentadiene and hydrogenation of cyclopentadiene in a stream of methane over palladium–ruthenium alloy . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 28 ( 8 ) : 1633
  • Ermilova , M. M. , Morozova , L. S. , Orekhova , N. V. and Gryaznov , V. M. 1994 . The effect of catalytic hydrogenation on hydrogen transfer through a palladium–ruthenium alloy membrane . Russ. J. Phys. Chem. , 68 ( 7 ) : 1094
  • Giller , S. A. , Gryaznov , V. M. , Pavlova , L. F. , Bulenkova , L. F. , Oshis , Y. F. and Shimanskaya , M. V. 1975 . Transformations of heterocyclic compounds on membrane catalysts I. Hydrogenation of furan compounds on a Pd–Ni alloy . Chem. Heterocycl. Compd. (Khimiya Geterotsikl. Soedin.) , 10 ( 5 ) : 523
  • Gryaznov , V. M. , Shimulis , V. I. and Yagodovskii , V. D. 1961 . Relation of the catalytic properties of metals to the degree of approach of the state of their surface to equilibrium . Dokl. Akad. Nauk SSSR , 136 ( 5 ) : 181
  • Gryaznov , V. M. , Yagodovskii , V. D. and Shimulis , V. I. 1961 . The effect of thermal treatment on the catalytic properties of platinum films . Kinet. Catal. , 2 ( 2 ) : 207
  • Gryaznov , V. M. , Polyakova , V. P. , Savitskii , E. M. , Frades , L. , Khrapova , E. V. , Khuares , E. and Shkola , G. V. 1970 . Influence of the nature and amount of the second component of binary-palladium alloys on their catalytic activity with respect to the dehydrogenation of cyclohexane . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 11 : 2520
  • Gryaznov , V. M. , Pavlova , L. F. , Juarez , E. and Rivera , P. 1970 . Differences between the catalytic transformations of cyclohexane on palladium, platinum, and rhodium . Dokl. Akad. Nauk SSSR , 194 ( 2 ) : 692
  • Gryaznov , V. M. , Pavlova , L. F. , Rivera , P. , Rosen , A. and Khuares , E. 1971 . Kinetics of cyclohexane dehydrogenation on palladium foil . Kinet. Catal. , 12 ( 5 ) : 1063
  • Gryaznov , V. M. , Pavlova , L. F. and Khlebnikov , V. B. 1975 . Study of Concentrations of Surface Reagents with the Help of Membrane Catalyst . Symp. Mech. of Hydrocarbon React. June 5–7 1975 , Siofok . pp. 107 Am. Elsevier Sci. Publ. Co .
  • Gryaznov , V. M. Method for Carrying Out Simultaneously the Catalytic Reactions Involving Hydrogen Evolution and Consumption . US Patent 3,950,447 . 1976 .
  • Gryaznov , V. M. and Smirnov , V. S. 1977 . Selective hydrogenation on membrane catalysts . Kinet. Catal. , 18 ( 3 ) : 485
  • Gryaznov , V. M. , Polyakova , V. P. , Savitsky , E. M. and Khrapova , E. V. Catalyst for Dehydrogenation or Dehydrocyclization of Hydrocarbons . US Patent 4,026,958 . May 31, 1977 .
  • Gryaznov , V. M. and Zelyaeva , E. A. 1977 . The formation of ammonia from nitrogen-15 and deuterium diffusing through an iron membrane catalyst . Russ. J. Phys. Chem. , 51 ( 1 ) : 139
  • Gryaznov , V. M. , Smirnov , V. S. , Yermilova , M. M. , Orekhova , N. V. , Pavlova , L. F. , Khrapova , Y. V. , Basov , N. L. , Gogua , L. D. , Mikhalenko , N. N. and Tarasova , V. Y. 1979 . Membrane catalysts in selective hydrogenation of certain products of pyrolysis of peteroleum hydrocarbons . Pet. Chem. U.S.S.R. (Neftekhimiya) , 19 ( 5 ) : 165
  • Gryaznov , V. M. , Ermilova , M. M. , Gogua , L. D. , Orekhova , N. V. and Morozova , L. S. 1980 . Selective hydrogenation of diene C5 hydrocarbons on Pd–Ru membrane catalysts . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 29 ( 12 ) : 1871
  • Gryaznov , V. M. , Ermilova , M. M. , Gogua , L. D. , Orekhova , N. V. and Morozova , L. S. 1981 . Hydrogenation of cyclopentadiene in the presence of isoprene and 1,3-pentadiene on a Pd–Ru membrane catalyst . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 30 ( 4 ) : 672
  • Gryaznov , V. M. , Ermilova , M. M. , Morozova , L. S. , Orekhova , N. V. , Polyakova , V. P. , Roshan , N. R. , Savitsky , E. M. and Parfenova , N. I. 1983 . Palladium alloys as hydrogen permeable catalysts in hydrogenation and dehydrogenation reactions . J. Less-Common Met. , 89 : 529
  • Gryaznov , V. M. , Karavanov , A. N. , Belosljudova , T. M. , Ermolaev , A. V. , Maganjuk , A. P. and Sarycheva , I. K. Process for Producing C4–C10 Ethylene Alcohols . US Patent 4,388,479 . Jun. 14, 1983 .
  • Gryaznov , V. M. , Smirnov , V. S. , Vdovin , V. M. , Ermilova , M. M. , Gogua , L. D. , Pritula , N. A. and Fedorova , G. K. Membrane Catalyst for Hydrogenation of Organic Compounds and Method for Preparing Same . US Patent 4,394,294 . Jul. 19, 1983 .
  • Gryaznov , V. M. , Maganyuk , A. P. , Karavanov , A. N. and Naumov , V. A. 1984 . Effect of phase composition of palladium–ruthenium membrane catalyst on selectivity of dehydrolinalool hydrogenation . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 33 ( 4 ) : 853
  • Gryaznov , V. M. 1999 . A century of studying the mechanism of catalytic reactions of hydrogen redistribution . Russ. J. Phys. Chem. , 73 ( 10 ) : 1548
  • Gur'yanova , O. S. , Serov , Y. M. , Lapidus , A. L. , Dmitriev , R. V. , Gul'yanova , S. G. , Gryaznov , V. M. and Minachev , K. M. 1987 . Absorption and disproportionation of CO on palladium alloys . Bull. Acad. Sci. USSR, Div. Chem. Sci. (Izv. Akad. Nauk SSSR, Ser. Khim.) , 36 ( 11 ) : 2252
  • Gur'yanova , O. S. , Serov , Y. M. , Gul'yanova , S. G. and Gryaznov , V. M. 1988 . Conversion of carbon monoxide on membrane catalysts of palladium alloys. I. Reaction between CO and H2 on binary palladium alloys with ruthenium and nickel . Kinet. Catal. , 29 ( 4 (1) : 728
  • Gur'yanova , O. S. , Serov , Y. M. , Gur'yanova , S. G. and Gryaznov , V. M. 1989 . Transformation of carbon monoxide on palladium alloy membrane catalysts. II. Reaction of CO and H2 on a palladium–nickel alloy coated with dispersed nickel or copper layers . Kinet. Catal. , 30 ( 2 ) : 406
  • Karavanov , A. N. and Gryaznov , V. M. 1984 . Hydrogenation of acetylenic and ethylenic alcohols in the liquid phase on membrane catalysts consisting of binary alloys of palladium with nickel and ruthenium . Kinet. Catal. , 25 ( 1 ) : 56
  • Karavanov , A. N. and Gryaznov , V. M. 1984 . Effect of the hydrogen content in a membrane catalyst on the selectivity of the hydrogenation of dehydrolinalool . Kinet. Catal. , 25 ( 1 ) : 60
  • Karavanov , A. N. , Tsarevskii , N. A. and Gryaznov , V. M. 1985 . Kinetics of the hydrogenation of cis- and trans-2-butene-1,4-diol on a palladium–ruthenium alloy membrane catalyst . Kinet. Catal. , 26 ( 1 ) : 76
  • Karavanov , A. N. , Mikhalenko , N. N. and Gryaznov , V. M. 1986 . Effect of transformations of hydride phases of a palladium–ruthenium alloy on the selectivity in dehydrolinalool hydrogenation . Dokl. Akad. Nauk SSSR (Dokl. Akad. Nauk SSSR) , 286 ( 4 ) : 908
  • Karavanov , A. N. and Gryaznov , V. M. 1988 . Hydrogenation of acetylene–ethylene alcohols over a palladium–ruthenium alloy membrane catalyst . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 37 ( 11 (1) : 2223
  • Karavanov , A. N. and Gryaznov , V. M. 1989 . Effect of the structure of substituted propargyl and allyl alcohols on the rate of their liquid phase hydrogenation on a Pd–Ru alloy membrane catalyst . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 38 ( 8 (1) : 1593
  • Karavanov , A. N. , Gryaznov , V. M. , Roshan , N. R. and Batyrev , I. G. 1991 . Palladium and its alloys as membrane catalysts for liquid-phase hydrogenation of dehydrolinalool . Kinet. Catal. , 32 ( 5 ) : 1045
  • Karavanov , A. N. , Gryaznov , V. M. , Lebedeva , V. I. , Litvinov , I. A. , Vasil'kov , A. Y. and Olenin , A. Y. 1995 . Porous membrane catalysts with Pd–M–clusters for liquid phase hydrogenation of dehydrolinalool . Catal. Today , 25 ( 3–4 ) : 447
  • Karavanov , A. N. , Gryaznov , V. M. , Gatyrev , I. G. and Olenina , E. G. 1995 . Effect of structure of unsaturated aliphatic alcohols on the hydrogenation rate over Pd–Ru membrane catalyst . Russ. J. Phys. Chem. , 69 ( 5 ) : 739
  • Kolosov , E. N. , Starkovskii , N. I. , Gul'yanova , S. G. and Gryaznov , V. M. 1988 . Oxygen permeability of thin silver membranes. I. Effect of the adsorption of benzene on the oxygen transfer process . Russ. J. Phys. Chem. , 62 ( 5 ) : 661
  • Krasil'nikova , O. K. and Gryaznov , V. M. 1988 . Study of the kinetics of sorption of hydrogen by palladium–ruthenium alloys by the method of adsorption deformation . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 37 ( 1 (1) : 855
  • Kurman , P. V. , Mardilovich , I. P. , Gryaznov , V. M. and Trokhimets , A. I. 1995 . Modification of the method for temperature-programmed investigations of processes involving hydrogen absorption or evolution . Russ. J. Phys. Chem. , 69 ( 7 ) : 1205
  • Lebedeva , V. I. and Gryaznov , V. M. 1981 . Effect of hydrogen removal through a membrane catalyst on dehydrocyclization of n-hexane . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 30 ( 3 (2) : 452
  • Lebedeva , V. I. and Gryaznov , V. M. 1988 . Hydrogenation of α-methylstyrene on membrane catalysts . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 37 ( 5 ) : 1018
  • Maganyuk , A. P. and Gryaznov , V. M. 1998 . Hydrogenation of organic liquids on a membrane catalyst without hydrogen pressure difference . Dokl. Phys. Chem. , 360 ( 4–6 ) : 177
  • Mikhalenko , N. N. , Khrapova , Y. V. and Gryaznov , V. M. 1979 . Effect of hydrogen transfer through a membrane catalyst from a Pd–Ru alloy on the rate of dehydrogenation of isopropanol and hydrogenation of cyclopentadiene . Pet. Chem. U.S.S.R. (Neftekhimiya) , 18 ( 3 ) : 81
  • Mikhalenko , N. N. , Khrapova , E. V. and Gryaznov , V. M. 1985 . The effect of ruthenium deposition on the catalytic properties of palladium–copper alloy foils . Russ. J. Phys. Chem. , 59 ( 10 ) : 1533
  • Mikhalenko , N. N. , Khrapova , E. V. and Gryaznov , V. M. 1986 . Influence of hydrogen on the dehydrogenation of isopropyl alcohol in the presence of a palladium membrane catalyst . Kinet. Catal. , 27 ( 1 (2) : 125
  • Mikhalenko , N. N. , Khrapova , E. V. and Gryaznov , V. M. 1986 . Effect of the direction of hydrogen and cyclopentadiene vapour streams along the two surfaces of a membrane catalyst on the hydrogen permeability and on the extent of hydrogenation . Russ. J. Phys. Chem. , 60 ( 2 ) : 307
  • Mishchenko , A. P. , Gryaznov , V. M. and Sarylova , M. E. 1982 . Conversion of 1,3-pentadiene on membrane catalysts prepared from binary alloys of palladium . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 31 ( 7 ) : 1312
  • Orekhova , N. V. , Smirnov , L. I. , Gryaznov , V. M. , Ermilova , M. M. and Mischenko , A. P. 1975 . Kinetics of isoamylene dehydrogenation on a membrane catalyst . React. Kinet. Catal. Lett. (Soobshch. Kinet. Katal.) , 3 ( 4 ) : 415
  • Orekhova , N. V. , Ermilova , M. M. and Gryaznov , V. M. 1992 . Combination of cyclohexane dehydrogenation and pentadiene-1,3 hydrogenation in granulated and monolithic membrane catalyst systems . Dokl. Akad. Nauk SSSR , 321 ( 1 ) : 789
  • Orekhova , N. V. , Ermilova , M. M. and Gryaznov , V. M. 1997 . Intensification of butane dehydrogenation on a granular catalyst by hydrogen removal through palladium alloy membranes . Russ. J. Phys. Chem. , 71 ( 9 ) : 1389
  • Rubio Barra , K. F. , Vargas Escudero , A. , Pavlova , L. F. and Gryaznov , V. M. 1982 . Interaction between the products of the strong adsorption of acetylene on palladium and hydrogen . Russ. J. Phys. Chem. , 56 ( 10 ) : 1603
  • Serov , Y. M. , Zhernosek , V. M. , Gul'yanova , S. G. and Gryaznov , V. M. 1983 . Kinetics of carbon dioxide hydrogenation over a hydrogen-permeable palladium–ruthenium membrane catalyst coated with nickel. II . Kinet. Catal. , 24 ( 2 ) : 303
  • Serov , Y. M. , Zhernosek , V. M. and Gryaznov , V. M. 1983 . A kinetic model for the hydrogenation of carbon dioxide on hydrogen-permeable membrane catalysts . Kinet. Catal. , 24 ( 1 ) : 207
  • Serov , Y. M. , Gur'yanova , O. S. , Gul'yanova , S. G. and Gryaznov , V. M. 1986 . Reactions of CO on a palladium–nickel alloy saturated with hydrogen . Russ. J. Phys. Chem. , 60 ( 1 ) : 117
  • Smirnov , V. S. , Gryaznov , V. M. , Mischenko , A. P. and Rodina , A. A. Process for Dehydrogenation, Dehydrocyclization and Hydrodealkylation of Hydrocarbons . US Patent 3,562,346 . 1971 .
  • Smirnov , V. S. , Gryaznov , V. M. , Orekhova , N. V. , Ermilova , M. M. and Mishchenko , A. P. 1975 . Study of the coupling of the dehydrogenation of isoamylenes with reactions of hydrogen consumption on a palladium–nickel membrane catalyst . Dokl. Akad. Nauk SSSR , 224 ( 2 ) : 958
  • Smirnov , V. S. , Gryaznov , V. M. , Lebedeva , V. I. , Mischenko , A. P. , Polyakova , V. P. and Savitsky , E. M. Cycloparaffin Dehydrogenation to Form Aromatics Using Palladium Alloy Foil . US Patent 4,157,354 . Jun. 5, 1979 .
  • Ustinova , T. S. , Shpiro , E. S. , Smirnov , V. S. , Gryaznov , V. M. , Antoshin , G. V. and Minachev , K. M. 1976 . Change in composition of surface layer of palladium–rhodium alloys during catalytic reaction . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 25 ( 2 ) : 441
  • Vedernikov , V. I. , Gryaznov , V. M. , Gul'yanova , S. G. , Deryugin , L. N. , Tishchenko , A. A. and Chernyai , A. I. 1982 . Use of thin-film resonant systems in studies of the interaction of gases with metal of semiconductor film surfaces . Russ. J. Phys. Chem. , 56 ( 2 ) : 297
  • Ito , N. 1990 . Dehydrogenation by membrane reactors . Sekiyu Gakkaishi (J. Jpn. Pet. Inst.) , 33 ( 3 ) : 136
  • Ito , N. , Shindo , Y. , Haraya , K. , Obata , K. , Hakuta , T. and Yoshitome , H. 1985 . Simulation of a reaction accompanied by separation . Int. Chem. Eng. , 25 ( 1 ) : 138
  • Ito , N. Dehydration Reaction Device . Japan Patent JP 1018437 . 1989 .
  • Itoh , N. 1987 . A membrane reactor using palladium . AIChE J. , 33 ( 9 ) : 1576
  • Itoh , N. 1990 . Simulation of bifunctional palladium membrane reactor . J. Chem. Eng. Jpn. , 23 ( 1 ) : 81
  • Itoh , N. 1991 . Maximum conversion of dehydrogenation in palladium membrane reactors . J. Chem. Eng. Jpn. , 24 ( 5 ) : 664
  • Itoh , N. 1992 . Development of a one-side uniform model for palladium membrane reactors . J. Chem. Eng. Jpn. , 25 ( 3 ) : 336
  • Itoh , N. Dehydrogenation Process . US Patent 5,449,848 . Sep. 12, 1995 .
  • Itoh , N. 1995 . Limiting conversions of dehydrogenation in palladium membrane reactors . Catal. Today , 25 ( 3–4 ) : 351
  • Itoh , N. , Shindo , Y. and Haraya , K. 1990 . Ideal flow models for palladium membrane reactors . J. Chem. Eng. Jpn. , 23 ( 4 ) : 420
  • Itoh , N. and Xu , W.-C. 1993 . Selective hydrogenation of phenol to cyclohexanone using palladium-based membranes as catalysts . Appl. Catal. A , 107 : 83
  • Itoh , N. , Xu , W.-C. and Haraya , K. 1992 . Basic experimental study on palladium membrane reactors . J. Membr. Sci. , 66 : 149
  • Sun , H. , Leonard , J. J. and Shalit , H. Hydrogen Peroxide Production . US Patent 4,393,038 . Jul. 12, 1983 .
  • Peureux , J. , Torres , M. , Mozzanega , H. , Giroir-Fendler , A. and Dalmon , J.-A. 1995 . Nitrobenzene liquid-phase hydrogenation in a membrane reactor . Catal. Today , 25 ( 3–4 ) : 409
  • Ilinich , O. M. , Cuperus , F. P. , van Gemert , R. W. , Gribov , E. N. and Nosova , L. V. 2000 . Catalytic membrane in denitrification of water: A means to facilitate intraporous diffusion of reactants . Sep. Purif. Technol. , 21 ( 1–2 ) : 55
  • Maier , W. F. and Ko , H.-C. 1995 . Poison resistant catalysis with microporous catalyst membranes . Catal. Today , 25 ( 3–4 ) : 429
  • Minet , R. G. , Tsotsis , T. T. and Champagnie , A. M. Process for Production of Ethylene from Ethane . US Patent 5,202,517 . Apr. 13, 1993 .
  • Adris , A. M. , Lim , C. J. and Grace , J. R. 1997 . The fluidized bed membrane reactor for steam methane reforming: Model verification and parametric study . Chem. Eng. Sci. , 52 : 1609
  • Labaton , I. J. and Harats , Y. Hydrogen Pump . US Patent 4,886,048 . Dec. 12, 1989 .
  • Gobina , E. and Hughes , R. 1996 . Reaction coupling in catalytic membrane reactors . Chem. Eng. Sci. , 51 ( 11 ) : 3045
  • Itoh , N. and Govind , R. 1989 . Development of a novel oxidative palladium membrane reactor . AIChE Symp. Ser. , 268 ( 85 ) : 10
  • Sheintuch , M. 1998 . Design of membranal dehydrogenation reactors: The fast reaction asymptote . Ind. Eng. Chem. Res. , 37 ( 3 ) : 807
  • Balovnev , Y. A. 1978 . Isotopic effect during hydrogen penetration through palladium . Phys. Met. Metallogr. , 45 ( 6 ) : 167
  • Zhao , R. and Govind , R. 1990 . Studies on palladium membrane reactor for dehydrogenation reaction . Sep. Sci. Technol. , 25 ( 13–15 ) : 1473
  • Violante , V. , Drioli , E. and Basile , A. 1995 . Catalytic ceramic membrane reactor design for hydrogen separation from inert gas via oxidation . J. Membr. Sci. , 104 : 11
  • Hermann , C. , Quicker , P. and Dittmeyer , R. 1997 . Mathematical simulation of catalytic dehydrogenation of ethylbenzene to styrene in a composite palladium membrane reactor . J. Membr. Sci. , 136 : 161
  • Hsu , C. and Buxbaum , R. E. 1986 . Palladium-catalyzed oxidative diffusion for tritium extraction from breeder-blanket fluids at low concentrations . J. Nucl. Mater. , 141–143 : 238
  • Gobina , E. and Hughes , R. 1996 . Reaction assisted hydrogen transport during catalytic dehydrogenation in a membrane reactor . Appl. Catal. A , 137 ( 1 ) : 119
  • Itoh , N. and Govind , R. 1989 . Combined oxidation and dehydrogenation in a palladium membrane reactor . Ind. Eng. Chem. Res. , 28 : 1554
  • Coppola , P. P. Hydrogen-pumping Apparatus of Laminated Construction . US Patent 3,630,690 . Dec. 28, 1971 .
  • Wang , A. W. , Raich , B. A. , Johnson , B. K. and Foley , H. C. 1992 . Coupled reaction–separation systems: Saturated hydrocarbon dehydrogenation with palladium membranes . Prepr.-Am. Chem. Soc., Div. Pet. Chem. , 37 : 743
  • Zaman , J. and Chakma , A. 1995 . A simulation on the thermal decomposition of hydrogen sulfite in a membrane reaction . Int. J. Hydrogen Energy , 20 ( 1 ) : 21
  • Raybold , T. M. and Huff , M. C. 1997 . Catalytic oxidative dehydrogenation of isobutane in a Pd membrane reactor . Stud. Surf. Sci. Catal. , 110 : 501
  • Raybold , T. M. and Huff , M. C. 2000 . Oxidation of isobutane over supported noble metal catalysts in a palladium membrane reactor . Catal. Today , 56 ( 1–3 ) : 35
  • Wu , J.C. S. and Liu , P.K. T. 1992 . Mathematical analysis on catalytic dehydrogenation of ethylebenzene using ceramic membranes . Ind. Eng. Chem. Res. , 31 : 322
  • Ali , J. K. , Rippin , D.W. T. and Baiker , A. 1995 . Improving methylcyclohexane dehydrogenation with ex-situ hydrogen separation in a reactor-interstaged membrane system . Ind. Eng. Chem. Res. , 34 ( 9 ) : 2940
  • Nagamoto , H. and Inoue , H. 1981 . Analysis of mechanism of ethylene hydrogenation by hydrogen permeating palladium membrane . J. Chem. Eng. Jpn. , 14 ( 5 ) : 377
  • Weyten , H. , Luyten , J. , Keizer , K. , Willems , L. and Leysen , R. 2000 . Membrane performance: The key issues for dehydrogenation reactions in a catalytic membrane reactor . Catal. Today , 56 ( 1–3 ) : 3
  • Ali , J. K. and Rippin , D.W. T. 1995 . Comparing mono- and bimetallic noble-metal catalysts in a catalytic membrane reactor for methylcyclohexane dehydrogenation . Ind. Eng. Chem. Res. , 34 ( 3 ) : 722
  • Gobina , E. 2000 . Inorganic membranes tackle oxo-alcohol synthesis gas production in a fluidised-bed reactor . Membr. Technol. , 2000 : 4
  • Adris , A.-E. M. , Grace , J. R. , Lim , C. J. and Elnashaie , S. S. Fluidized Bed Reaction System for Steam/Hydrocarbon Gas Reforming to Produce Hydrogen . US Patent 5,326,550 . Jul. 5, 1994 .
  • Abdalla , B. K. , Elnashaie , S.S.E. H. , Alkhowaiter , S. and Elshishini , S. S. 1994 . Intrinsic kinetics and industrial reactors modelling for the dehydrogenation of ethylbenzene to styrene on promoted iron oxide catalysts . Appl. Catal. A , 113 : 89
  • Buxbaum , R. E. 1999 . Membrane reactor advantages for methanol reforming and similar reactions . Sep. Sci. Technol. , 34 ( 10 ) : 2113
  • Hara , S. , Xu , W.-C. , Sakaki , K. and Itoh , N. 1999 . Kinetics and hydrogen removal effect for methanol decomposition . Ind. Eng. Chem. Res. , 38 ( 2 ) : 488
  • Lin , Y.-M. , Lee , G.-L. and Rei , M.-H. 1998 . An integrated purification and production of hydrogen with a palladium membrane-catalytic reactor . Catal. Today , 44 : 343
  • Oklany , J. S. , Hou , K. and Hughes , R. 1998 . A simulative comparison of dense and microporous membrane reactors for the steam reforming of methane . Appl. Catal. A , 170 ( 1 ) : 13
  • Sheintuch , M. and Dessau , R. M. 1996 . Observations, modeling and optimization of yield, selectivity and activity during dehydrogenation of isobutane and propane in a Pd membrane reactor . Chem. Eng. Sci. , 51 ( 4 ) : 535
  • Lange , C. , Storck , S. , Tesche , B. and Maier , W. F. 1998 . Selective hydrogenation reactions with a microporous membrane catalyst, prepared by sol-gel dip coating . J. Catal. , 175 : 280
  • Gokhale , Y. V. , Noble , R. D. and Falconer , J. L. 1993 . Analysis of a membrane enclosed catalytic reactor for butane dehydrogenation . J. Membr. Sci. , 77 : 197
  • Gokhale , Y. V. , Noble , R. D. and Falconer , J. L. 1995 . Effects of reactant loss and membrane selectivity on a dehydrogenation reaction in a membrane-enclosed catalytic reactor . J. Membr. Sci. , 105 : 63
  • Gobina , E. , Hou , K. and Hughes , R. 1995 . Mathematical analysis of ethylbenzene dehydrogenation: Comparison of microporous and dense membrane systems . J. Membr. Sci. , 105 : 163
  • Reo , C. M. , Bernstein , L. A. and Lund , C.R. F. 1997 . Defining conditions where the use of porous membrane reactors can be justified solely on the basis of improved yield . Chem. Eng. Sci. , 52 ( 18 ) : 3075
  • Saracco , G. , Veldsink , J. W. , Versteeg , G. F. and van Swaaij , W.P. M. 1995 . Catalytic combustion of propane in a membrane reactor with separate feed of reactants—II. Operation in presence of trans-membrane pressure gradients . Chem. Eng. Sci. , 50 ( 17 ) : 2833
  • Gryaznov , V. M. , Smirnov , V. S. , Mischenko , A. P. and Aladyshev , S. I. Catalytic-reactor for Carrying Out Conjugate Chemical Reactions . US Patent 4,014,657 . Mar. 29, 1977 .
  • Elnashaie , S.S.E. H. , Moustafa , T. M. , Alsoudani , T. and Elshishini , S. S. 2000 . Modeling and basic characteristics of novel integrated dehydrogenation–hydrogenation membrane catalytic reactors . Comput. Chem. Eng. , 24 : 1293
  • Marigliano , G. , Barbieri , G. and Drioli , E. 2001 . Effect of energy transport on a palladium-based membrane reactor for methane steam reforming process . Catal. Today , 67 : 85
  • Luk'yanov , B. N. , Ermilova , M. M. and Orekhova , N. V. 1977 . Development of a kinetic model for the dehydrogenation of isoamylenes on a palladium–nickel membrane catalyst . Kinet. Catal. , 18 ( 3 ) : 569
  • Khaldeev , G. V. , Petukhov , I. V. and Shcherban , M. G. 2000 . Electrooxidation of the hypophosphite ion on a palladium electrode . Russ. J. Electrochem. (Elektrokhimiya) , 36 ( 9 ) : 934
  • Orekhova , N. V. , Ermilova , M. M. , Smirnov , V. S. and Gryaznov , V. M. 1976 . Effect of reaction products on dehydrogenation rate of isoamylenes on a membrane catalyst . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 11 : 2602
  • Johansson , M. and Ekedahl , L.-G. 2001 . Hydrogen adsorbed on palladium during water formation studied with palladium membranes . Appl. Surf. Sci. , 173 ( 1–2 ) : 122
  • Gorshkov , S. V. , Lin , G. I. and Rozovskii , A. Y. 1999 . The mechanism of methanol dehydrogenation with methyl formate formation and the methods of process selectivity control . Kinet. Catal. , 40 ( 3 ) : 334
  • Naito , S. and Amemiya , N. 1996 . Noble selectivity change in the hydrogenation of CO over palladium membrane catalysts . Chem. Lett. , 10 : 893
  • Arai , M. , Wada , Y. and Nishiyama , Y. 1993 . Desorption of hydrogen absorbed in a palladium film as induced by the adsorption of pyridine . J. Colloid Interface Sci. , 159 : 255
  • Karavanov , A. N. and Batirev , I. G. 1993 . Calculation of reaction rate and selectivity of dehydrolinalool hydrogenation over Pd–Ru alloy membrane catalysts . Mendeleev Commun. , 2 : 62
  • Mishchenko , A. P. and Senina , E. V. 1987 . Transformation of carbon tetrachloride on membrane catalysts . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 36 ( 7 ) : 1541
  • Dannetun , H. , Lundstrom , I. and Petersson , L. G. 1991 . Detection of hydrogen from the photodissociative splitting of water through hydrogen–oxygen separation over a thin Pd film . J. Appl. Phys. , 70 ( 1 ) : 453
  • Ohkawa , K. , Noguchi , Y. , Nakayama , S. and Hashimoto , K. 1994 . Electrochemical reduction of carbon dioxide on hydrogen-storing materials. Part 3. The effect of the absorption of hydrogen on the palladium electrodes modified with copper . J. Electroanal. Chem. , 367 : 165
  • Sokol'skii , D. V. , Nogerbekov , B. Y. , Gudeleva , N. N. , Kobets , N. V. and Mustafina , R. G. 1986 . Diffusion of hydrogen through palladium-containing membrane catalysts . Russ. J. Phys. Chem. , 61 ( 1 ) : 34
  • Itoh , N. , Xu , W. C. , Hara , S. and Sakaki , K. 2000 . Electrochemical coupling of benzene hydrogenation and water electrolysis . Catal. Today , 56 : 307
  • Jerkiwicz , G. and Zolfaghari , A. 1996 . Comparison of hydrogen electroadsorption from the electrolyte with hydrogen adsorption from the gas phase . J. Electrochem. Soc. , 143 ( April ) : 1240
  • Amandusson , H. , Ekedahl , L.-G. and Dannetun , H. 2000 . Isotopic study of ethanol dehydrogenation over a palladium membrane . J. Catal. , 195 : 376
  • Amandusson , H. , Ekedahl , L.-G. and Dannetun , H. 1999 . Methanol-induced hydrogen permeation through a palladium membrane . Surf. Sci. , 442 : 199
  • Shirai , M. and Arai , M. 1999 . Hydrogenation of furan with hydrogen atoms permeating through a palladium membrane . Langmuir , 15 ( 4 ) : 1577
  • Shirai , M. , Pu , Y. , Arai , M. and Nishiyama , Y. 1998 . Reactivity of permeating hydrogen with thiophene on a palladium membrane . Appl. Surf. Sci. , 126 : 99
  • Itoh , M. , Machida , K. and Adachi , G. 2000 . Ammonia production characteristics of Ru/Al2O3 catalysts using hydrogen permeable membrane . Chem. Lett. , 10 : 1162
  • Nagamoto , H. and Inoue , H. T. 1986 . The hydrogenation of 1,3-butadiene over a palladium membrane . Bull. Chem. Soc. Jpn. , 59 : 3935
  • Nagamoto , H. and Inoue , H. 1985 . A reactor with catalytic membrane permeated by hydrogen . Chem. Eng. Commun. , 34 : 315
  • Arai , M. , Wada , Y. and Nishiyama , Y. 1993 . Thiophene hydrodesulfurization by catalytic palladium membrane systems . Sekiyu Gakkaishi (J. Jpn. Pet. Inst.) , 36 ( 1 ) : 44
  • Rupprechter , G. and Somorjai , G. A. 1997 . Palladium-catalyzed hydrogenation without hydrogen: The hydrodechlorination of chlorofluorocarbons with solid state hydrogen over the palladium(111) crystal surface and its implications . Catal. Lett. , 48 ( 1,2 ) : 17
  • Pick , M. A. 1987 . The dependence of the hydrogen concentration in metals on the surface impurities . J. Nucl. Mater. , 145–147 : 297
  • Raymont , M.E. D. 1975 . Make hydrogen from hydrogen sulfide . Hydrocarbon Process. , 54 ( 7 ) : 139
  • Zubarev , Y. A. , Zelyaeva , E. A. , Mironovskaya , T. G. , Yagodovskii , V. D. and Gryaznov , V. M. 1981 . Adsorption of ethylene and acetylene on palladium foil and films . Kinet. Catal. , 22 ( 5 ) : 1005
  • Zubarev , Y. A. , Zelyaeva , E. A. , Moreno Fuken , R. , Yagodovskii , V. D. and Gryaznov , V. M. 1983 . Study of the hydrogenation of ethylene and acetylene adsorbed on palladium foil by diffusing hydrogen . Kinet. Catal. , 24 ( 5 ) : 990
  • Mischenko , A. P. , Gryaznov , V. M. , Smirnov , V. S. , Senina , E. D. , Parbuzina , I. L. , Roshan , N. R. , Polyakova , V. P. and Savitsky , E. M. Process for Producing Aniline with a Permselective Palladium and Ruthenium Catalyst . US Patent 4,179,470 . Dec. 18, 1979 .
  • Mischenko , A. P. , Gryaznov , V. M. , Gakh , I. G. , Parbuzina , I. L. , Savitsky , E. M. , Polyakova , V. P. and Roshan , N. R. Method for Preparing 2,4-diaminolphenol or 2,4-dihydrochloride . US Patent 4,323,708 . Apr. 6, 1982 .
  • Daley , S. P. , Utz , A. L. , Trautman , T. R. and Ceyer , S. T. 1994 . Ethylene hydrogenation on Ni(111) by bulk hydrogen . J. Am. Chem. Soc. , 116 ( 13 ) : 6001
  • Graifer , A. Y. , Koshcheev , A. P. and Myasnikov , I. A. 1990 . Photostimulated hydrogen spillover in a semiconductor-palladium membrane system . Kinet. Catal. , 31 ( 6 (2) : 1315
  • Collins , J. P. 1993 . “ Catalytic Decomposition of Ammonia in a Membrane Reactor ” . In Ph.D. Thesis Corvallis , Oregon, US : Oregon State University .
  • Collins , J. P. and Way , J. D. 1994 . Catalytic decomposition of ammonia in a membrane reactor . Ind. Eng. Chem. Res. , 96 : 259
  • Gobina , E. N. , Oklany , J. S. and Hughes , R. 1995 . Elimination of ammonia from coal gasification streams by using a catalytic membrane reactor . Ind. Eng. Chem. Res. , 34 ( 11 ) : 3777
  • Collins , J. P. , Way , J. D. and Kraisuwansarn , N. 1993 . A mathematical model of a catalytic membrane reactor for the decomposition of NH3 . J. Membr. Sci. , 77 : 265
  • Oertel , M. , Schmitz , J. , Weirich , W. , Jendryssek-Neumann , D. and Schulten , R. 1987 . Steam reforming of natural gas with integrated hydrogen separation for hydrogen production . Chem.-Ing.-Tech. , 10 ( 4 ) : 248
  • Nazarkina , E. G. and Kirichenkom , H. A. 1979 . Improvement in the steam catalytic conversion of methane by hydrogen liberation via palladium membrane . Chem. Technol. Fuels Oils (Khim. Tekhnol. Topl. Masel) , 15 ( 3 ) : 5
  • Ishihara , T. , Miyashita , Y. , Iseda , H. and Takita , Y. 1995 . Decomposition of methane over Ni/SiO2 catalysts with membrane reactor for the production of hydrogen . Chem. Lett. , : 93
  • Batirev , I. G. , Karavanov , A. N. and Leiro , J. A. 1993 . Surface segregation and catalytic properties of Pd–Ru alloys . Surf. Sci. , 289 : 357
  • Yoshitake , M. and Yoshihara , K. 1992 . Surface segregation of substrate element on metal films in film/substrate combinations with Nb, Ti and Cu . Surf. Interface Anal. , 18 : 509
  • Rodina , A. A. , Gurevich , M. A. and Doronicheva , N. I. 1971 . The interaction of hydrogen with certain palladium–gold and palladium–silver–gold alloys . Russ. J. Phys. Chem. , 45 ( 5 ) : 621
  • Wood , B. J. and Wise , H. 1975 . Surface composition of Pd–Au and Pd–Ag catalysts by Auger electron spectroscopy . Surf. Sci. , 52 : 151
  • Shapiro , E. S. , Telegina , N. S. and Gryaznov , V. M. 1991 . Oscillations in the surface composition in Pt–Co alloys induced by CO chemisorption . Dokl. Phys. Chem. , 320 ( 4–6 ) : 737
  • Shpiro , E. S. , Ustinova , T. S. , Smirnov , V. S. , Gryaznov , V. M. , Antoshin , G. V. and Minachev , K. M. 1978 . The effect of various types of treatment on the surface layer composition in binary palladium alloys . Bull. Acad. Sci. USSR (Izv. Akad. Nauk SSSR, Ser. Khim.) , 27 ( 4 ) : 658
  • Kikuchi , E. , Uemiya , S. , Sato , N. , Inoue , H. , Ando , H. and Matsuda , T. 1989 . Membrane reactor using microporous glass-supported thin film of palladium: 1) application to the water gas shift reaction . Chem. Lett. , 3 : 489
  • Hou , K. , Fowles , M. and Hughes , R. 2000 . The effect of hydrogen removal during methane steam reforming in membrane reactors in the presence of hydrogen sulphide . Catal. Today , 56 ( 1–3 ) : 13
  • Hou , K. , Fowles , M. and Hughes , R. 1999 . Potential catalyst deactivation due to hydrogen removal in a membrane reactor used for methane steam reforming . Chem. Eng. Sci. , 54 : 3783
  • Goltsov , V. A. Method for Preparation of Super-high Purity Hydrogen . US Patent 3,881,891 . May 6, 1975 .
  • Amandusson , H. , Ekedahl , L.-G. and Dannetun , H. 2001 . Alcohol dehydrogenation over Pd versus PdAg membranes . Appl. Catal. , 217 : 157
  • Emonts , B. , Bøgild Hansen , J. , Lægsgaard Jørgensen , S. , Höhlein , B. and Peters , R. 1998 . Compact methanol reformer test for fuel-cell powered light-duty vehicles . J. Power Sources , 71 : 288
  • Roy , S. , Cox , B. G. , Adris , A. M. and Pruden , B. B. 1998 . Economics and simulation of fluidized bed membrane reforming . Int. J. Hydrogen Energy , 23 ( 9 ) : 745
  • Jiang , Z. , Wang , J. and Tong , H. 1998 . Modeling Analysis of Membrane Reactor Process for Dehydrogenation of Ethylbenzene to Styrene . Proc. 5th Intl. Conf. Inorganic Membr. June 22–26 1998 , Nagoya , Japan. pp. 608
  • Becker , Y. L. , Dixon , A. G. , Moser , W. R. and Ma , Y. H. 1993 . Modeling of ethylbenzene dehydrogenation in a catalytic membrane reactor . J. Membr. Sci. , 77 : 233
  • Tagawa , T. , Itoh , H. and Goto , S. 1998 . Design of Palladium Membrane Reactor for Dehydrogenation of Ethylbenzene . Proc. 5th Intl. Conf. Inorganic Membr. June 22–26 1998 , Nagoya , Japan. pp. 342
  • Tiscareno-Lechuga , F. , Hill , C. G. Jr. and Anderson , M. A. 1993 . Experimental studies of the non-oxidative dehydrogenation of ethylbenzene using a membrane reactor . Appl. Catal. A , 96 : 33
  • Yang , W.-S. , Wu , J.-C. and Lin , L.-W. 1995 . Application of membrane reactor for dehydrogenation of ethylbenzene . Catal. Today , 25 ( 3–4 ) : 315
  • She , Y. , Han , J. and Ma , Y. H. 2001 . Palladium membrane reactor for the dehydrogenatation of ethylbenzene to styrene . Catal. Today , 67 : 43
  • Mahlman , J. D. 1997 . Uncertainties in projections of human-caused climate warming . Science , 278 : 1416
  • 2001 . The science of climate change . Science , 292 : 1261
  • Golunski , S. 1998 . HotSpot™ fuel processor . Platinum Met. Rev. , 42 ( 1 ) : 2
  • Ogden , J. , Steinbugler , M. M. and Kreutz , T. G. 1999 . A comparison of hydrogen, methanol and gasoline as fuels for fuel cell vehicles: Implications for vehicle design and infrastructure development . J. Power Sources , 79 ( 2 ) : 143
  • Liu , C. , Fan , Y. Y. , Liu , M. , Cong , H. T. , Cheng , H. M. and Dresselhaus , M. S. 1999 . Hydrogen storage in single-walled carbon nanotubes at room temperature . Science , 286 : 1127
  • Choi , W. C. , Kim , J. D. and Woo , S. I. 2001 . Modification of proton conducting membrane for reducing methanol crossover in a direct-methanol fuel cell . J. Power Sources , 96 : 411
  • Dohle , H. Fuel Cell with a Proton Conducting Electrolyte . WO Patent 9939398 . Aug. 5, 1999 .
  • Smotkin , E. S. , Mallouk , T. E. , Ward , M. D. and Ley , K. L. Hybrid Electrolyte System . US Patent 5,846,669 . Dec. 8, 1998 .
  • Edwards , N. , Ellis , S. R. , Frost , J. C. , Golunski , S. E. , van Keulen , A.N. F. , Lindewald , N. G. and Reinkingh , J. G. 1998 . On-board hydrogen generation for transport applications: The HotSpot™ methanol processor . J. Power Sources , 71 : 123
  • Hoogers , G. 1998 . Fuel cells: Power for the future . Phys. World Mag. , 11 ( 8 ) : 31
  • Cicero , D. and Jarr , L. A. 1990 . Application of ceramic membranes in advanced coal-based power generation systems . Sep. Sci. Technol. , 25 ( 13–15 ) : 1455
  • Basile , A. and Paturzo , L. 2001 . An experimental study of multilayered composite palladium membrane reactors for partial oxidation of methane to syngas . Catal. Today , 67 : 55
  • Nielsen , A. T. , Amandusson , H. , Bjorklund , R. , Dannetun , H. , Ejlertsson , J. , Ekedahl , L.-G. , Lundström , I. and Svensson , B. H. 2001 . Hydrogen production from organic waste . Int. J. Hydrogen Energy , 26 : 547
  • Reed , T. B. and Lerner , R. M. 1973 . Methanol: A versatile fuel for immediate use . Science , 182 ( 4119 ) : 1299
  • Ahmed , S. , Kumar , R. and Krumpelt , M. 1999 . Fuel processing for fuel cell power systems . Fuel Cells Bull. , 2 ( 12 ) : 4
  • Brown , L. F. 2001 . A comparative study of fuels for on-board hydrogen production for fuel-cell-powered automobiles . Int. J. Hydrogen Energy , 26 : 381
  • Dams , R. A. , Hayter , P. R. and Moore , S. C. 1997 . The Processing of Alcohols, Hydrocarbons and Ethers to Produce Hydrogen for a PEMFC for Transportation Applications . Proc. 32nd Intersociety Energy Conversion Eng. Conf. Jul. 27–Aug. 1 1997 , Honolulu , Hawaii. pp. 837 AIChE .
  • Fishtik , I. , Alexander , A. , Datta , R. and Geana , D. 2000 . A thermodynamic analysis of hydrogen production by steam reforming of ethanol via response reactions . Int. J. Hydrogen Energy , 25 : 31
  • Amphlett , J. C. , Evans , M. J. , Mann , R. F. and Weir , R. D. 1985 . Hydrogen production by the catalytic steam reforming of methanol. Part 2: Kinetics of methanol decomposition using Girdler G66B catalyst . Can. J. Chem. Eng. , 63 : 605
  • Amphlett , J. C. , Evans , M. J. , Jones , R. A. , Mann , R. F. and Weir , R. D. 1981 . Hydrogen production by the catalytic steam reforming of methanol. Part 1: The thermodynamics . Can. J. Chem. Eng. , 59 : 720
  • Amphlett , J. C. , Creber , K.A. M. , Davis , J. M. , Mann , R. F. , Peppley , B. A. and Stokes , D. M. 1994 . Hydrogen production by steam reforming of methanol for polymer electrolyte fuel cells . Int. J. Hydrogen Energy , 19 ( 2 ) : 131
  • Amphlett , J. C. , Mann , R. F. and Weir , R. D. 1988 . Hydrogen production by the catalytic steam reforming on methanol. Part 3: Kinetics of methanol decomposition using C18HC catalyst . Can. J. Chem. Eng. , 66 : 950
  • Gardner , T. J. , Sault , A. G. , Boespflug , E. P. , Brinker , C. J. , Tsai , A.C. Y. and Collins , J. P. 1999 . Hydrogen Production for Fuel Cells by Selective Dehydrogenation of Alkanes in Catalytic Membrane Reactors, SAND 99-0681 Albuquerque , New Mexico, US : Sandia National Laboratory .
  • Edlund , D. 1999 . Versatile, low-cost and compact fuel processor for low-temperature fuel cells . Fuel Cells Bull. , 2 ( 14 ) : 8
  • Murata , K. , Ito , N. , Hayakawa , T. , Suzuki , K. and Hamakawa , S. 1999 . No deactivated production of hydrogen by pyrolysis of ethane over graphite-based catalysts using membrane-type reactors . Chem. Commun. , : 573
  • Murata , K. , Hamakawa , S. , Suzuki , K. and Hayakawa , T. 2000 . Hydrogen production by decomposition of hydrocarbons over Ni/Ca/carbon catalysts . Sekiyu Gakkaishi (J. Jpn. Pet. Inst.) , 43 ( 2 ) : 162
  • Midilli , A. , Rzayev , P. , Olgun , H. and Ayhan , T. 2000 . Solar hydrogen production from hazelnut shells . Int. J. Hydrogen Energy , 25 : 723
  • Ledjeff-Hey , K. , Formanski , V. , Kalk , T. and Roes , J. 1998 . Compact hydrogen production systems for solid polymer fuel cells . J. Power Sources , 71 : 199
  • Amphlett , J. C. , Mann , R. F. , Peppeley , B. A. , Roberge , P. R. , Rodrigues , A. and Salvador , J. P. 1998 . Simulation of a 250 kW diesel fuel processor/PEM fuel cell system . J. Power Sources , 71 ( 1–2 ) : 179
  • Peppley , B. A. , Amphlett , J. C. , Kearns , L. M. , Mann , R. F. and Roberge , P. R. 1997 . Hydrogen Generation for Fuel-Cell Power Systems by High-pressure Catalytic Methanol-steam Reforming . Proc. 32nd Intersociety Energy Conversion Eng. Conf. July 27–August 1 1997 , Honolulu , Hawaii. pp. 831 AIChE .
  • Lin , Y.-M. and Rei , M.-H. 2000 . Process development for generating high purity hydrogen by using supported palladium membrane reactor as steam reformer . Int. J. Hydrogen Energy , 25 : 211
  • Höhlein , B. , Boe , M. , Bøgild-Hansen , J. , Bröckerhoff , P. , Colsman , G. , Emonts , B. , Menzer , R. and Riedel , E. 1996 . Hydrogen from methanol for fuel cells in mobile systems: Development of a compact reformer . J. Power Sources , 61 : 143
  • Han , J.-N. , Kim , I.-S. and Choi , K.-S. 2000 . Purifier-integrated methanol reformer for fuel cell vehicles . J. Power Sources , 86 : 223
  • Rampe , T. , Heinzel , A. and Vogel , B. 2000 . Hydrogen generation from biogenic and fossil fuels by autothermal reforming . J. Power Sources , 86 : 536
  • Gubler , L. , Scherer , G. G. , Wokaun , A. , Newson , E. , Truong , T. B. and von Roth , F. 1999 . Lab Scale Link-up of a Methanol Fuel Processor with a Polymer Electrolyte Fuel Cell (PEFC). Paul Scherrer Institute Scientific Report. Volume V: General Energy, ETDE-CH-0001 or DE20063988 Paul Scherrer Institute .
  • Edlund , D. J. Steam Reformer with Internal Hydrogen Purification . US Patent 5,861,137 . Jan. 19, 1999 .
  • Isomura , M. , Soma , T. and Takahashi , T. Process for Production of High-purity Hydrogen . US Patent 5,741,474 . Apr. 21, 1998 .
  • Shirasaki , Y. , Gondaira , M. , Ohta , Y. , Uchida , H. , Kuroda , K. , Uchida , T. , Fujimoto , Y. , Makihara , H. , Ohta , S. and Kobayashi , K. Hydrogen Producing Apparatus . US Patent 5,639,431 . Jun. 17, 1997 .
  • Marianowski , L. G. and Fleming , D. K. Hydrogen Forming Reaction Process . US Patent 4,810,485 . Mar. 7, 1989 .
  • Setzer , H. J. and Eggen , C. W. Method for Catalytically Reforming Hydrogen-containing Carbonaceous Feedstocks by Simultaneous Abstractions Through a Membrane Selectively Permeable to Hydrogen . US Patent 3,450,500 . Jun. 17, 1969 .
  • Weirich , W. , Barnert , H. , Oertel , M. and Schulten , R. Process and Apparatus for Conversion of Water Vapor with Coal or Hydrocarbon into a Product Gas . US Patent 4,713,234 . Dec. 15, 1987 .
  • Epp , D. G. and Baumert , R. M. Integrated Fuel Cell Electric Power Generation System for Submarine Applications . US Patent 6,063,515 . May 16, 2000 .
  • LaPierre , R. and Partridge , R. D. Method and Sytsem for Supplying Hydrogen for Use in Fuel Cells . WO Patent 9965097 . Dec. 16, 1999 .
  • Edwards , N. and VanKeulen , A.N. J. Hydrogen Generator . WO Patent 9925649 . May 27, 1999 .
  • Bloomfield , D. P. Fuel Cell Power Plant with Electrochemical Autothermal Reformer . WO Patent 9904443 . Jan. 28, 1999 .
  • Soma , T. , Takahashi , T. and Isomura , M. Method for Removing Carbon Monoxide from Reformed Gas . US Patent 5,612,012 . Mar. 18, 1997 .
  • Edlund , D. J. and Pledger , W. A. Hydrogen Producing Fuel Processing System . US Patent 6,221,117 . 2001 .
  • Buxbaum , R. E. High Temperature Gas Purification System . US Patent 5,888,273 . 1999 .
  • Willms , R. S. and Birdsell , S. A. Apparatus and Method for Simultaneous Recovery of Hydrogen from Water and from Hydrocarbons . WO Patent 9934898 . 1999 .
  • Birdsell , S. A. and Willms , R. S. Hydrogen Generation from Reforming Organic Molecules using a Palladium Membrane Reactor . WO Patent 9961368 . Dec. 2, 1999 .
  • Penzhorn , R.-D. and Yoshida , H. Process for Cleaning the Exhaust Gas of a Fusion Reactor . US Patent 4,875,945 . Oct. 24, 1989 .
  • Farrauto , R. J. 2000 . The generation of hydrogen for the solid polymer membrane fuel cell . C. R. Acad. Sci., Ser. IIc: Chim. , 7 ( 3 ) : 573
  • Arvindan , N. S. , Rajesh , B. , Madhivanan , M. and Pattabiraman , R. 1999 . Hydrogen generation from natural gas and methanol for use in electrochemical energy conversion systems (fuel cell) . Indian J. Eng. Mater. Sci. , 6 : 73
  • Meek , J. and Baker , B. S. 1965 . “ Hydrogen from Natural Gas for Fuel Cells ” . In Advances in Chemistry Series Edited by: Young , G. J. and Linden , H. R. Vol. 47 , 221 New York : American Chem. Soc. .
  • Amphlett , J. C. , Mann , R. F. and Peppley , B. A. 1996 . On board hydrogen purification for steam reformation/PEM fuel cell vehicle power plants . Int. J. Hydrogen Energy , 21 ( 8 ) : 673
  • Gorshkov , S. V. , Lin , G. I. , Rozovskii , A. Y. , Serov , Y. M. and Uhm , S. J. 1999 . Hydrogen diffusion through a Pd–Ru membrane in the course of methanol dehydrogenation to methyl formate on a copper-containing catalyst . Kinet. Catal. , 40 ( 1 ) : 93
  • Amano , M. , Nishimura , C. and Komaki , M. 1990 . Effects of high concentration CO and CO2 on hydrogen permeation through the palladium membrane . Mater. Trans., JIM , 31 ( 5 ) : 404
  • Rudbeck , P. , Aasberg-Petersen , K. , Lægsgaard Jørgensen , S. and Højlund Nielsen , P. E. Process for the Generation of Electrical Power . US Patent 5,705,916 . Jan. 6, 1998 .
  • Ishutin , V. V. , Mekhedov , B. N. and Sukhotin , L. N. 1972 . Separation of hydrogen and tritium on a palladium filter . Russ. J. Phys. Chem. , 46 ( 10 ) : 1516
  • Charalambus , S. and Goebel , K. 1965 . Enrichment of tritium by diffusion through palladium . Z. Naturforsch., A: Phys. Sci. , 20 : 1085
  • Chu , W. 1996 . Hydrogen purifiers go to Savannah River site to process tritium . Radioact. Radiochem. , 7 ( 4 ) : 45
  • Clark , E. A. , Dauchess , D. A. , Heung , L. K. , Rabun , R. L. and Motyka , T. 1995 . Experience with palladium diffusers in tritium processing . Fusion Technol. , 28 : 566
  • Yoshida , H. , Konishi , S. and Naruse , Y. 1983 . Preliminary design of a fusion reactor fuel cleanup system by the palladium–alloy membrane method . Nucl. Technol./Fusion , 3 : 471
  • Kawano , T. , Sakuma , Y. , Kabutomori , T. and Shibuya , M. 2000 . Development of a tritium cleanup system for a large helical device using nonvolatile getter materials . Fusion Technol. , 37 : 62
  • Horsley , G. W. 1960 . On The Possibility of Removing Hydrogen from the Dragon Coolant by Diffusion Through a Palladium Membrane, NP-9743 Winfrith , England : Atomic Energy Establishment .
  • Kamei , H. and Ohno , M. Removal of Hydrogen from Liquid Sodium . US Patent 3,795,087 . Mar. 5, 1974 .
  • Konishi , S. , Inoue , M. , Hayashi , T. , O'hira , S. , Watanabe , T. , Okuno , K. , Naruse , Y. , Barnes , J. W. , Bartlit , J. R. and Andrerson , J. L. 1991 . Early experiments of JAERI fuel cleanup system at the tritium systems test assembly . Fusion Eng. Des. , 18 : 33
  • Konishi , S. , Yoshida , H. and Naruse , Y. 1982 . Analysis and design of palladium diffuser for fusion reactor fuel cleanup system . At. Energy Soc. Jpn. J. , 24 ( 12 ) : 973
  • Ali-Khan , I. , Dietz , K.-J. , Waelbroeck , F. and Wienhold , P. Device Utilized for Separation of Hydrogen Isotopes from a Gas Mixture for Separation of Isotopes Contained in a Hydrogen Isotope Mixture . US Patent 4,494,965 . 1985 .
  • Penzhorn , R.-D. , Murdoch , D. and Haange , R. 1997 . Recent results on vacuum pumping and fuel clean-up . Fusion Eng. Des. , 36 : 75
  • Hickam , W. M. , Witkowski , R. E. and Berkey , E. Diffusion-type Hydrogen Meter . US Patent 3,977,232 . Aug. 31, 1976 .
  • Watson , C. C. Hydrogen Meter . US Patent 2,456,163 . Dec. 14, 1948 .
  • Lucero , D. P. Electrochemical Cell with Hydrogen Permeable Barrier . US Patent 3,468,781 . Sep. 23, 1969 .
  • Rzhanov , A. E. , Serov , Y. M. , Terent'ev , A. A. , Filippov , V. I. and Goncharov , V. Y. 1990 . Hydrogen extraction from industrial media by a palladium–ruthenium(VI) membrane . J. Anal. Chem. USSR (Zh. Anal. Khim.) , 45 ( 9 ) : 1335
  • Takagi , I. , Toyoda , K. , Katayama , M. , Fujita , H. and Higashi , K. 1998 . Experiment on atomic hydrogen reflection by use of a permeation probe . J. Nucl. Mater. , 258–263 : 1082
  • Kohler , M. 1990 . Engineering and design of fast reactors . Philos. Trans. R. Soc. London, Ser. A , 331 ( 1619 ) : 301
  • Lawrence , S. C. Jr. , Picard , J. C. and Reich , R. 1976 . A system for monitoring hydrogen–metal reaction kinetics . J. Less-Common Met. , 49 : 241
  • Chaplanov , V. , Filipopov , V. , Rzhanov , A. , Terentjev , A. and Yakimov , S. 1991 . System to detect hydrogen in water . Sens. Actuators, B , 5 ( 1–4 ) : 185
  • Serra , E. , Kemali , M. , Perujo , A. and Ross , D. K. 1998 . Hydrogen and deuterium in Pd-25 Pct Ag alloy: Permeation, diffusion, solubilization, and surface reaction . Metall. Mater. Trans. A , 29A : 1023
  • Bellanger , G. and Rameau , J. J. 1997 . Tritium adsorption and diffusion of 25% silver palladium cathodic membranes for water processing . Fusion Technol. , 31 : 185
  • Lässer , R. and Schober , T. 1988 . Some aspects of tritium storage in hydrogen storage materials . Mater. Sci. Forum , 31 : 39
  • Santandrea , R. P. and Behrens , R. G. 1986 . A review of the thermodynamics and phase relationships in the palladium–hydrogen, palladium–deuterium and palladium–tritium systems . High Temp. Mates. Processes , 7 ( 2–3 ) : 149
  • Wicke , E. 1971 . Isotope effects in palladium–hydrogen systems . Platinum Met. Rev. , 15 ( 4 ) : 144
  • Carstens , D.H. W. and David , W. R. 1989 . Equilibrium Pressure Measurements in the Beta Region of Palladium Protide and Palladium Deuteride, LA-11456-MS Los Alamos National Laboratory: .
  • Carstens , D.H. W. and Encinias , P. D. 1990 . Hydrogen Isotopic Exchange over Palladium Metal, LA-UR-90-1762 Los Alamos National Laboratory .
  • Chang , C. P. , Wu , J. K. , Yao , Y. D. , Wang , C. W. and Lin , E. K. 1991 . Hydrogen and deuterium in palladium . Int. J. Hydrogen Energy , 16 ( 7 ) : 491
  • Powell , G. L. and Lever , W. E. 1989 . The solubility of H, D, and T in Pd(1−Z)AgZ Alloys (Z=0 to 1) . Z. Phys. Chem. N.F. , 163 : 47
  • Lässer , R. and Powell , G. L. 1987 . Solubility of protium, deuterium and tritium in palladium–silver alloys at low hydrogen concentrations . J. Less-Common Met. , 130 : 387
  • Birnbaum , H. K. and Wert , C. A. 1972 . Diffusion of hydrogen in metals . Ber. Bunsen-Ges. , 76 ( 8 ) : 806
  • Lewis , F. A. 1960 . The hydrides of palladium and palladium alloys: A review of recent researches . Platinum Met. Rev. , 4 ( 4 ) : 132
  • Yasumatsu , T. , Watanabe , K. and Matsuyama , M. 1999 . Thermodynamic properties of hydrogen isotope in Pd–Pt and Pd–Ni alloys . Annu. Rep. of Hydrogen Isot. Res. Cent., Toyama Univ. (Toyama Daigaku Suiso Doitai Kino Kenkyu Senta Kenkyu Hokoku) , 18 : 81
  • Watanabe , K. , Matsuyama , M. , Kobayashi , T. and Shu , W. M. 1998 . Hydrogen isotope separation by gas chromatography using Pd–Pt alloy . Fusion Eng. Des. , 39–40 : 1001
  • Tosti , S. and Violante , V. 1998 . Numerical approach for a study of the hydrogen isotopes separation by palladium alloy membranes . Fusion Eng. Des. , 43 : 93
  • Suzuki , Y. and Kimura , S. 1993 . Separation and concentration of hydrogen isotopes by a palladium alloy membrane . Nucl. Tech. , 103 : 93
  • Suzuki , Y. and Kimura , S. 1984 . Separation and concentration of hydrogen isotopes by palladium–alloy membrane . J. At. Energy Soc. Jpn. , 26 ( 9 ) : 802
  • Sicking , G. 1984 . Isotope effects in metal–hydrogen systems . J. Less-Common Met. , 101 : 169
  • Evans , J. , Harris , I. R. and Ross , D. K. 1983 . A proposed method of hydrogen isotope separation using palladium alloy membranes . J. Less-Common Met. , 89 : 407
  • Rutherford , W. M. 1988 . Separation of hydrogen isotopes . Mater. Sci. Forum , 31 : 19
  • Tanaka , S. and Kiyose , R. 1979 . Isotope separation of hydrogen and deuterium by permeation through palladium membrane . J. Nucl. Sci. Technol. , 16 ( 12 ) : 923
  • Konishi , S. , Yoshida , H. , Ohno , H. , Naruse , Y. , Coffin , D. O. , Walthers , C. R. and Binning , K. E. 1985 . Experiments on a ceramic electrolysis cell and a palladium diffuser at the tritium systems test assembly . Fusion Technol. , 8 : 2042
  • Penzhorn , R.-D. , Berndt , U. , Kirste , E. , Hellriegel , W. , Jung , W. , Pejsa , R. and Romer , O. 1995 . Long-term permeator experiment PETRA at the tritium laboratory Karlsruhe: Commissioning tests with tritium . Fusion Technol. , 28 : 723
  • Ortiz , T. M. , Meyer , B. A. and Razani , A. 2000 . Empirical correlation of equilibrium separation factors in the Pd–H2/D2 system with temperature and composition . J. Chem. Eng. Data , 45 ( 1 ) : 120
  • Botter , F. 1976 . Thermodynamic isotopic effects in palladium and Pd–Pt alloy . J. Less-Common Met. , 49 ( 1–2 ) : 111 – 122 .
  • Andreev , B. M. and Domanov , M. M. 1975 . Temperature variation of the separation factor in the protium–tritium and deuterium–tritium systems on dissolution of hydrogen in palladium . Russ. J. Phys. Chem. , 49 ( 5 ) : 734
  • Andreev , B. M. , Polevoi , A. S. and Perevezentsev , A. N. 1978 . Effect of isotopic concentration on the separation coefficient of H–T, H–D, and D–T mixtures in the hydrogen–palladium system . Soc. At. Energ. (At. Energ.) , 45 ( 1 ) : 710
  • Andreev , B. M. and Sicking , G. H. 1987 . Hydrogen equilibrium separation factors in metal/hydrogen systems, a synopsis on the basis of the localized harmonic oscillator model . Ber. Bunsen-Ges. , 91 : 177
  • Nishikawa , M. , Shiraishi , T. and Murakami , K. 1996 . Solubility and separation factor of protium–deuterium binary component system in palladium . J. Nucl. Sci. Technol. , 33 ( 6 ) : 504
  • Gol'tsov , V. A. , Demin , V. B. , Vykhodets , V. B. , Kagan , G. Y. and Gel'd , P. V. 1970 . Diffusion, penetration and solubility of hydrogen and deuterium in palladium . Phys. Met. Metallogr. , 29 ( 6 ) : 195
  • Guilinger , T. R. , Kelly , M. J. , Knapp , J. A. , Walsh , D. S. and Doyle , B. L. 1991 . Ion beam measurement of deuterium in palladium and calculation of hydrogen isotope separation factors . J. Electrochem. Soc. , 138 ( 8 ) : L26
  • Skorodumov , B. G. , Serebryakov , V. N. , Ulanov , V. G. , Zhukovska , E. V. and Zhukovsky , O. A. 1996 . Hydrogen and deuterium mass transfer and separation during hydriding–dehydriding of palladium studied by the NERD method . Int. J. Hydrogen Energy , 21 ( 11/12 ) : 961
  • Thiébaut , S. , Décamps , B. , Pénisson , J. M. , Limacher , B. and Percheron-Guégan , A. 2000 . TEM study of the aging of palladium-based alloys during tritium storage . J. Nucl. Mater. , 277 : 217
  • Carlson , R. V. , Binning , K. E. , Konishi , S. , Yoshida , H. and Naruse , Y. 1987 . Results of Experiments on Ceramic Electrolysis Cells and Palladium Diffusers for Application to Fusion Reactor Fuel Cleanup Systems . Proc. 12th Symp. Fusion Eng. 1987 , Monterey , California, US . pp. 732 New York : IEEE .
  • Klevtsov , V. G. , Boitsov , I. E. , Vedeneev , A. I. , Glagolev , M. V. , Lobanov , V. N. , Malkov , I. L. , Pimanikhin , S. A. and Stengach , A. V. 2000 . The impact of tritium on the structure and properties of Pd-membranes . Fusion Eng. Des. , 49–50 : 873
  • Yoshida , H. , Kveton , O. , Koonce , J. , Holland , D. and Haange , R. 1998 . Status of the ITER tritium plant design . Fusion Eng. Des. , 39–40 : 875
  • Penzhorn , R.-D. , Anderson , J. , Haange , R. , Hircq , B. , Meikle , A. and Naruse , Y. 1991 . Technology and component development for a closed tritium cycle . Fusion Eng. Des. , 16 : 141
  • Glugla , M. , Murdoch , D. K. , Geibler , H. , Herrmann , P. , Kraemer , R. and Le , T. L. 1998 . Design of a catalytic exhaust clean-up unit for ITER . Fusion Eng. Des. , 39–40 : 893
  • Konishi , S. , Hara , M. and Okuno , K. 1995 . Versatile fuel cleanup system based on palladium permeation and vapor electrolysis . Fusion Technol. , 28 : 652
  • Busigin , A. , Sood , S. K. and Kalyanam , K. M. Process and Apparatus for Tritium Recovery . US Patent 5,154,878 . Oct. 13, 1992 .
  • DeLong , B. W. and Burkinshaw , J. R. Gas Separation . US Patent 4,732,583 . Mar. 22, 1988 .
  • Pigarov , A. Y. , Pistunovich , V. I. and Livshits , A. I. 1992 . On gas pumping by using superpermeable membrane in ITER . J. Nucl. Mater. , 196–198 : 1121
  • Pistunovich , V. I. , Pigarov , A. Y. , Busnyuk , A. O. , Livshits , A. I. , Notkin , M. E. , Samartsev , A. A. , Borisenko , K. L. , Darmogray , V. V. , Ershov , B. D. , Filippova , L. V. , Mudugin , B. G. , Odintsov , V. N. , Saksagansky , G. L. and Serebrennikov , D. V. 1995 . Membrane pumping technology for helium and hydrogen isotope separation in the fusion reactor . Fusion Eng. Des. , 28 : 336
  • Notkin , M. E. 1979 . Interaction of hydrogen atoms with a palladium membrane . Sov. Phys. Tech. Phys. (Zh. Tekh. Fiz.) , 24 ( 9 ) : 1089
  • Livshits , A. I. , Sube , F. , Solovyev , M. N. , Notkin , M. E. and Bacal , M. 1998 . Plasma driven superpermeation of hydrogen through group Va metals . J. Appl. Phys. , 84 ( 5 ) : 2558
  • Park , J. , Bennett , T. , Schwarzmann , J. and Cohen , S. A. 1995 . Permeation of hydrogen through palladium . J. Nucl. Mater. , 220–222 : 827
  • Kapitanskii , V. R. , Livshits , A. I. , Metter , I. M. and Notkin , M. E. 1976 . Interaction of a palladium membrane with quasiequilibrium atomic hydrogen . Sov. Phys. Tech. Phys. (Zh. Tekh. Fiz.) , 21 ( 5 ) : 602
  • Livshits , A. I. , Notkin , M. E. and Samartsev , A. A. 1990 . Physico-chemical origin of superpermeability-large-scale effects of surface chemistry on “hot” hydrogen permeation and absorption in metals . J. Nucl. Mater. , 170 : 79
  • Livshits , A. I. 1979 . Superpermeability of solid membranes and gas evacuation. Part I. Theory . Vacuum , 29 ( 3 ) : 103
  • Livshits , A. I. 1979 . Superpermeability of solid membranes and gas evacuation. Part II. Permeation of hydrogen through a palladium membrane under different gas and membrane boundary conditions . Vacuum , 29 ( 3 ) : 113
  • Livshits , A. I. , Notkin , M. E. , Pistunovich , V. I. , Bacal , M. and Busnyuk , A. O. 1995 . Superpermeability: Critical points for applications in fusion . J. Nucl. Mater. , 220–222 : 259
  • Livshits , A. I. , Metter , I. M. and Samartsev , A. A. 1976 . Interaction of a deuterium atomic beam with a palladium membrane . Sov. Phys. Tech. Phys. (Zh. Tekh. Fiz.) , 21 ( 7 ) : 848
  • Nagasaki , T. and Ohno , H. 1993 . Steady-state hydrogen transport in a metal membrane exposed to hydrogen gas and/or a hydrogen ion beam: Reexamination of transport regime and synergistic effects . J. Vac. Sci. Technol., A , 11 ( 3 ) : 588
  • Sharapov , V. M. 2000 . Impact of low-energy ion irradiation on desorption during hydrogen penetration through metals . Bull. Russ. Acad. Sci. Phys. , 64 ( 4 ) : 588
  • Busnyuk , A. , Nakamura , Y. , Nakahara , Y. , Suzuki , H. , Ohyabu , N. and Livshits , A. I. 2001 . Membrane bias effects on plasma-driven permeation of hydrogen through niobium membrane . J. Nucl. Mater. , 290–293 : 57
  • Nakahara , Y. , Nakamura , Y. , Ohyabu , N. , Suzuki , H. , Busnyuk , A. and Alimov , V. 2000 . Superpermeable membrane for particle control in divertor: The effect of impurity deposition . Fusion Eng. Des. , 21–52 : 243
  • Violante , V. , Bettinali , L. , Bimbi , L. and Drioli , E. Ceramic Catalytic Membrane Reactor for the Separation of Hydrogen and/or Isotopes thereof from Fluid Feeds . US Patent 5,366,712 . Nov. 22, 1994 .
  • Violante , V. , Basile , A. and Drioli , E. 1995 . Composite catalytic membrane reactor analysis for the water gas shift reaction in the tritium fusion fuel cycle . Fusion Eng. Des. , 30 : 217
  • Birdsell , S. A. and Willms , R. S. 1997 . Tritium Recovery from Tritiated Water with a Two-stage Palladium Membrane Reactor, DE97004769 Los Alamos , New Mexico, US : Los Alamos National Laboratory .
  • Birdsell , S. A. , Willms , S. and Wilhelm , R. C. 1996 . Ultra-high tritium decontamination of simulated fusion fuel exhaust using a 2-stage palladium membrane reactor . Fusion Technol. , 30 : 905
  • 1957 . Separation of hydrogen isotopes . Platinum Met. Rev. , 1 ( 1 ) : 49
  • Quakernaat , J. 1995 . Hydrogen in a global long-term perspective . Int. J. Hydrogen Energy , 20 ( 6 ) : 485
  • Bockris , J.O. M. 1971 . Hydrogen economy . Environment , 13 ( 10 ) : 51
  • Lewis , F.A. Q. 1997 . Platinum metals involvement in the hydrogen economy . Platinum Met. Rev. , 41 ( 4 ) : 163
  • Lovins , A. B. and Williams , B. D. 1999 . A Strategy for the Hydrogen Transition Snowmass , Colorado, US : Rocky Mountain Institute .
  • Matsui , K. 1998 . Global demand growth of power generation, input choices and supply security . J. Energy , 19 ( 2 ) : 93
  • Newson , E. , Haueter , T. , Hottinger , P. , von Roth , F. , Scherer , G.W. H. and Schucan , T. H. 1998 . Seasonal storage of hydrogen in stationary systems with liquid organic hydrides . Int. J. Hydrogen Energy , 23 ( 10 ) : 905
  • Shakhbazov , S. D. and Rzaev , P. F. 1978 . Thermal calculations for the reactor of a solar-power unit to produce hydrogen by thermolysis of water . Appl. Sol. Energy (Geliotekhnika) , 14 ( 2 ) : 69
  • Bakirov , M. Y. , Rzaev , P. F. , Akhmedov , Z. G. and Velieva , B. A. 1979 . A diffusion cell with palladium membrane for separation of hydrogen-containing mixtures in a solar furnace . Appl. Sol. Energy (Geliotekhnika) , 15 ( 5 ) : 48
  • Wallman , P. H. , Thorsness , C. B. and Winter , J. D. 1998 . Hydrogen production from wastes . Energy , 23 ( 4 ) : 271
  • Arai , M. , Yamada , K. and Nishiyama , Y. 1992 . Evolution and separation of hydrogen in the photolysis of water using titania-coated catalytic palladium membrane reactor . J. Chem. Eng. Jpn. , 25 ( 6 ) : 761
  • Nishiguchi , H. , Fukunaga , A. , Miyashita , Y. , Ishihara , T. and Takita , Y. 1998 . Reduction of carbon dioxide to graphite carbon via methane by catalytic fixation with membrane reactor . Stud. Surf. Sci. Catal. , 114 : 147
  • Kokugan , T. , Trianto , A. and Takeda , H. 1998 . Dehydrogenation of pure cyclohexane in the membrane reactor and prediction of conversion by pseudo equilibrium model . J. Chem. Eng. Jpn. , 31 ( 4 ) : 596
  • Aristov , Y. I. , Parmon , V. N. , Cacciola , G. and Giordano , N. 1993 . High-temperature chemical heat pump based on reversible catalytic reactions of cyclohexane–dehydrogenation/benzene–hydrogenation: Comparison of the potentialities of different flow diagrams . Int. J. Energy Res. , 17 : 293
  • Cacciola , G. , Aristov , Y. I. , Restuccia , G. and Parmon , V. N. 1993 . Influence of hydrogen-permeable membranes upon the effiency of the high-temperature chemical heat pumps based on cyclohexane dehydrogenation–benzene hydrogenation reactions . Int. J. Hydrogen Energy , 18 ( 8 ) : 673
  • Hayes , J. M. Isotope-ratio-monitoring Gas Chromatography-mass Spectrometry Apparatus and Method . US Patent 5,012,052 . Apr. 30, 1991 .
  • Lucero , D. P. and Haley , F. C. 1968 . Sample enrichment techniques for a gas chromatograph/mass spectrometer analysis system . J. Gas Chromatogr. , 6 : 477
  • Lanzerstorfer , C. and Puxbaum , H. 1991 . The palladium/silver membrane focusing injector—a new inlet system for thermal desorption capillary gas chromatography . Fresenius' J. Anal. Chem. , 339 ( 4 ) : 223
  • Kanunnikova , E. V. , Gryaznov , V. M. , Yanovskii , S. M. , Pavlova , L. F. and Zhukhovitskii , A. A. 1976 . The application of columns with semipermeable walls in chromatography . Ind. Lab. (Zavod. Lab.) , 42 ( 1 ) : 18
  • Ford , T. E. , Searson , P. C. , Harris , T. and Mitchell , R. 1990 . Investigation of microbiologically produced hydrogen permeation through palladium . J. Electrochem. Soc. , 137 ( 4 ) : 1175
  • Paiva , A. L. and Malcata , F. X. 1997 . Does thermodynamics improve processing when chemical reaction is integrated with physical separation in binary ideal mixtures? . Chem. Eng. Sci. , 52 ( 3 ) : 449

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