References
- Subramaniam , B. and McHugh , M. A. 1986 . Reactions in supercritical fluids-A review . Ind. Eng. Chem. Process Des. Dev. , 24 : 1
- Brennecke , J. F. 1993 . “ Supercritical Fluid Engineering Science: Fundamentals and Applications ” . In ACS Symposium Series 514 , Vol. 1 , p. 201 Washington, DC : American Chemical Society .
- Savage , P. E. , Gopalan , S. , Mizan , T. I. , Martino , C. J. and Brock , E. E. 1995 . Reactions at supercritical conditions: Applications and fundamentals . AZChE J. , 41 : 1723
- Jessop , P. G. , Hsiao , Y. , Ikariya , T. and Noyori , R. 1996 . Homogeneous catalysis in supercritical fluids: Hydrogenation of supercritical carbon dioxide to formic acid, alkyl formates, and formamides . J. Am. Chem. Soc. , 118 : 344
- Carroll , M. A. and Holmes , A. B. 1998 . Pdcatalyzed carbon-carbon bond formation in supercritical carbon dioxide . Chem. Commun. , : p. 1395
- Burk , M. J. , Feng , S. , Gross , M. F. and Tumas , W. 1995 . Asymmetric catalytic hydrogenation reactions in supercritical carbon dioxide . J. Am. Chem. Soc. , 117 : 8277
- Kainz , S. , Koch , D. , Baumann , W. and Leitner , W. 1997 . Pertluoroalkyl-substituted arylphosphanes as ligands for homogeneous catalysis in supercritical carbon dioxide . Angew. Chem. Int. Ed. Engl. , 36 : 1628
- Hitzler , M. G. and Poliakoff , M. 1997 . Chem. Commun. , : p. 1667
- Korzenski , M. B. and Kolis , J. W. 1997 . Diels-Alder reactions using supercritical water as an aqueous solvent medium . Tetrahedron Lett. , 38 : 5611
- Sato , O. , Ikushima , Y. and Yokoyama , T. 1998 . Noncatalytic Beckmann rearrangement of cyclohexanone-oxime in supercritical water . J. Org. Chem. , 63 : 9100
- Shaw , R. W. , Brill , T. B. , Clifford , A. A. , Fkkert , C. A. and Franck , E. U. 1991 . Supercritical water A medium for chemistry . C&EN , : p. 2639
- Hatakeda , K. , Ikushima , Y. , Ito , S. , Sato , O. and Saito , N. 1997 . Supercritical water oxidation of a PCB of 3-chlorobiphenyl using hydrogen peroxide . Chem. Len. , : p. 245
- Kabyemela , B. M. , Adschiri , T. , Malaluan , R. and Arai , K. 1997 . Kinetics of glucose. epimerization and decomposition in subcritical and supercritical water . Ind. Eng. Chem. Res. , 36 : 1552
- Siskin , M. and Katritzky , A. R. 1991 . Reactivity of organic compounds in hot water: Geochemical and technological implications . Science , 254 : 231
- Katritzky , A. R. and Allin , S. M. 1996 . Aquathermolysis: Reactions of organic compounds with superheated water . Ace. Chem. Res. , 29 : 299
- An , J. , Bagnefl , L. , Cablewski , T. , Strauss , C. R. and Trainor , R. W. 1997 . Applications of high-temperature aqueous media for synthetic organic reactions . J. Org. Chem. , 62 : 2505
- Hoffmann , M. M. and Conradi , S. 1997 . Are there hydrogen bonds in supercritical water? . J. Am. Chem. Soc. , 119 : 3811
- Matsubayashi , N. , Wakui , C. and Nakahara , M. 1997 . Structural study of supercritical water. J. Nuclear magnetic resonance spectroscopy . J. Chem. Phys. , 107 : 9133
- Ikushima , Y. , Hatakeda , K. , Saito , N. and Arai , M. 1998 . An in sihc Raman spectroscopy study of subcritical and supercritical water: The peculiarity of hydrogen bonding near the critical point . J. Chem. Phys. , 108 : 5855
- Kieke , M. L. , Schopperlrei , J. W. and Brill , T. B. 1996 . Spectroscopy of hydrothermal reactions. 1. The CO2-H2O system and kinetics of urea decomposition in an FTIR spectroscopy flow reactor cell operable to 725K and 335 bar . J. Phys. Chem. , 100 : 7455
- Sherman , W. F. and Stadtmuller , A. A. 1987 . Experimental Techniques in High-pressure Research , p. 349 Chichester : John Wiley & Sons .
- Schoppelrei , J. W. , Kieke , M. L. , Wang , X. , Klein , M. T. and Brill , T. B. 1996 . Spectroscopy of hydrothermal reactions. 4. Kinetics of urea and guanidinium nitrate at 200–30O°C in a diamond cell, infrared spectroscopy flow reactor . J. Phys. Chem. , 100 : 14343
- Maiella , P. G. and Brill , T. B. 1996 . Spectroscopy of hydrothermal reactions. 5. Decarboxylation kinetics of malonic acid and monosodium malonate . J. Phys. Chem. , 100 : 14352
- Maiella , P. G. and Brill , T. B. 1998 . Spectroscopy of hydrothermal reactions. Kinetics of aqueous NH4XCN(X=O,S) and OCS by flow reactor-infrared spectroscopy . Inorg. Chem. , 37 : 454
- Maiella , P. G. and Brill , T. B. 1998 . Spectroscopy of hydrothermal reactions. 10. Evidence of wall effects in decarboxylation kinetics of 1.00m HCO2X(X=H, Na) at 280–330°C and 275 bar . J. Phys. Chem. A , 102 : 5886
- Ikushima , Y. , Saito , N. and Arai , M. 1998 . Raman spectral studies of aqueous zinc nitrate solution at high temperatures and at a high pressure of 30MPa . J. Phys. Chem. B , 102 : 3029
- Ikushima , Y. , Hatakeda , K. , Saito , N. and Arai , M. 1998 . Raman spectral studies of aqueous nitrate solution up to 450°C and 40 MPa . Bull. Chem. Soc. Jpn. , 71 : 1763
- Bunton , C. A. , Hadwick , T. , Liewellyn , D. R. and Pocker , Y. 1958 . Tracer studies in alcohols. Part III. Intermediates in the pinacolpinacone rearrangement . J. Chem. Soc. , : p. 403
- Moriyoshi , T. and Tamura , K. 1970 . Effects of pressure on organic reactions II The acidcatalyzed rearrangement of pinacol . Rev. Phys. Chem. Jpn. , 40 : 48
- Kuhlman , B. , Arnett , E. M. and Siskin , M. 1994 . Classical organic reactions in pure superheated water . J. Org. Chem. , 59 : 3098
- Mitton , D. B. , Marrone , P. A. and Latanision , R. M. 1996 . Interpretation of the rationale for feed modification in SCWO systems . J. Electrochem. Soc. , L59 : 143 and references therein
- Ikushima , Y. and Arai , M. 1998 . Raman spectroscopy study on the dynamic behavior of nitrate anion in zinc nitrate solution at high temperatures and pressure . Chem. Phys. , 238 : 455
- Chardler , K. , Deng , F. , Dillow , A. K. , Liotta , C. L. and Eckert , C. A. 1997 . Alkylation reactions in near-critical water in the absence of acid catalysts . Ind. Eng. Chem. Res. , 36 : 5175