Siamak Pakdel, Hamid Erfan-Niya, Jafar Azamat & Amir Hasanzadeh. (2023) Highly efficient helium purification through a dual-membrane system: insights from molecular dynamics simulations. Physical Chemistry Chemical Physics 25:44, pages 30572-30582.
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Keerthana Krishnan, Ashley L. Potter, Carolyn A. Koh & Moises A. Carreon. (2023) Helium recovery from natural gas over CC3 membranes. Journal of Membrane Science Letters 3:1, pages 100042.
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Hossein Rezaei, Hamid Erfan-Niya, Jafar Azamat & Siamak Pakdel. (2023) Efficient helium separation through SIFSIX-3-Cu membrane: A molecular dynamics study. Computational Materials Science 223, pages 112143.
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Gianni Olguin, Christelle Yacou, Julius Motuzas, Maik Butterling, Wilhelm A. Meulenberg, Simon Smart & João C. Diniz da Costa. (2022) Surfactant functionalised cobalt silica membranes – Gas permeation and thin film positron annihilation lifetime spectroscopy characterisation. Journal of Membrane Science 664, pages 121040.
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Jiachen Xia, Jing Yang, Hao Zhang, Yingming Guo & Ruifeng Zhang. (2022) Microstructure and Hydrothermal Stability of Microporous Niobia-Silica Membranes: Effect of Niobium Doping Contents. Membranes 12:5, pages 527.
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Tuğçe Kurt & Berna Topuz. (2021) Sol-gel control on mixed network silica membranes for gas separation. Separation and Purification Technology 255, pages 117654.
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Takashi Tachibana, Tomohisa Yoshioka, Keizo Nakagawa, Takuji Shintani, Eiji Kamio & Hideto Matsuyama. (2020) Gas Permeation Characteristics of TiO2-ZrO2-Aromatic Organic Chelating Ligand (aOCL) Composite Membranes. Membranes 10:12, pages 388.
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Ali Akbari, Javad Karimi-Sabet & Seyyed Mohammad Ghoreishi. (2020) Polyimide based mixed matrix membranes incorporating Cu-BDC nanosheets for impressive helium separation. Separation and Purification Technology 253, pages 117430.
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Benjamin Ballinger, Julius Motuzas, Simon Smart, Suzylawati Ismail, Nor Aida Zubir, Siti Nurehan Abd Jalil & Joao C. Diniz da Costa. (2020) Catalysis of silica sol–gel reactions using a PdCl2 precursor. Journal of Sol-Gel Science and Technology 95:2, pages 456-464.
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G. G. Kagramanov, V. N. Gurkin & E. N. Farnosova. (2020) Effect of Gas Solubility on Efficiency of Membrane Processes with Separation of He/CH4 and CO2/CH4 Mixtures as an Example. Membranes and Membrane Technologies 2:4, pages 244-250.
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Jiwon Yu, Hyung-Kyu Lim & Sangheon Lee. (2019) Transition-Metal Softener for High-Durability Hydrogen Separation Silica Membranes. The Journal of Physical Chemistry C 123:42, pages 25761-25768.
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Tsukasa Tanaka, Masakoto Kanezashi, Hiroki Nagasawa & Toshinori Tsuru. (2019) Effects of Calcination Condition on the Network Structure of Triethoxysilane (TRIES) and How Si–H Groups Influence Hydrophobicity Under Hydrothermal Conditions. Industrial & Engineering Chemistry Research 58:9, pages 3867-3875.
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Julius Motuzas, Adi Darmawan, Muthia Elma & David K. Wang. 2019. Current Trends and Future Developments on (Bio-) Membranes. Current Trends and Future Developments on (Bio-) Membranes
77
99
.
Colin A. Scholes. (2018) Helium Recovery through Inorganic Membranes Incorporated with a Nitrogen Rejection Unit. Industrial & Engineering Chemistry Research 57:10, pages 3792-3799.
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Ali Soleimany, Seyed Saeid Hosseini & Fausto Gallucci. (2017) Recent progress in developments of membrane materials and modification techniques for high performance helium separation and recovery: A review. Chemical Engineering and Processing: Process Intensification 122, pages 296-318.
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Colin Scholes & Ujjal Ghosh. (2017) Review of Membranes for Helium Separation and Purification. Membranes 7:1, pages 9.
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A Darmawan, L Karlina, Y Astuti, Sriatun, D K Wang, J Motuzas & J C D da Costa. (2017) Interlayer free – nickel doped silica membranes for desalination. IOP Conference Series: Materials Science and Engineering 172, pages 012001.
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David K. Wang, Rongzhi Chen, Julius Motuzas, Simon Smart & João C. Diniz da Costa. 2017. Current Trends and Future Developments on (Bio-) Membranes. Current Trends and Future Developments on (Bio-) Membranes
317
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Adi Darmawan, Linda Karlina, Yayuk Astuti, Sriatun, Julius Motuzas, David K. Wang & João C. Diniz da Costa. (2016) Structural evolution of nickel oxide silica sol-gel for the preparation of interlayer-free membranes. Journal of Non-Crystalline Solids 447, pages 9-15.
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Guozhao Ji, Simon Smart, Suresh K. Bhatia & João C. Diniz da Costa. (2015) Improved pore connectivity by the reduction of cobalt oxide silica membranes. Separation and Purification Technology 154, pages 338-344.
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Liang Liu, David K. Wang, Dana L. Martens, Simon Smart & João C. Diniz da Costa. (2015) Binary gas mixture and hydrothermal stability investigation of cobalt silica membranes. Journal of Membrane Science 493, pages 470-477.
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Adi Darmawan, Julius Motuzas, Simon Smart, Anne Julbe & João C. Diniz da Costa. (2015) Temperature dependent transition point of purity versus flux for gas separation in Fe/Co-silica membranes. Separation and Purification Technology 151, pages 284-291.
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Benjamin Ballinger, Julius Motuzas, Simon Smart & João C. Diniz da Costa. (2015) Gas permeation redox effect on binary lanthanum cobalt silica membranes with enhanced silicate formation. Journal of Membrane Science 489, pages 220-226.
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Liang Liu, David K. Wang, Dana. L. Martens, Simon Smart & João C. Diniz da Costa. (2015) Influence of sol–gel conditioning on the cobalt phase and the hydrothermal stability of cobalt oxide silica membranes. Journal of Membrane Science 475, pages 425-432.
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Liang Liu, David K. Wang, Peter Kappen, Dana L. Martens, Simon Smart & João C. Diniz da Costa. (2015) Hydrothermal stability investigation of micro- and mesoporous silica containing long-range ordered cobalt oxide clusters by XAS. Physical Chemistry Chemical Physics 17:29, pages 19500-19506.
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Adi Darmawan, Julius Motuzas, Simon Smart, Anne Julbe & João C. Diniz da Costa. (2015) Binary iron cobalt oxide silica membrane for gas separation. Journal of Membrane Science 474, pages 32-38.
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Shirin. Khanmohammadi & Ehsan. Taheri-Nassaj. (2014) Micro-porous silica–yttria membrane by sol–gel method: Preparation and characterization. Ceramics International 40:7, pages 9403-9411.
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S. Smart, J. Beltramini, J.C. Diniz da Costa, S.P. Katikaneni & T. Pham. 2013. Handbook of Membrane Reactors. Handbook of Membrane Reactors
337
369
.
Masakoto Kanezashi, W.N. Shazwani, Tomohisa Yoshioka & Toshinori Tsuru. (2012) Separation of propylene/propane binary mixtures by bis(triethoxysilyl) methane (BTESM)-derived silica membranes fabricated at different calcination temperatures. Journal of Membrane Science 415-416, pages 478-485.
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S. Smart, J.F. Vente & J.C. Diniz da Costa. (2012) High temperature H2/CO2 separation using cobalt oxide silica membranes. International Journal of Hydrogen Energy 37:17, pages 12700-12707.
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Vittorio Boffa. 2012. Molecules at Work. Molecules at Work
177
205
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Takashi Saito, Masahiro Seshimo, Kazuki Akamatsu, Keita Miyajima & Shin-ichi Nakao. (2012) Effect of physically adsorbed water molecules on the H2-selective performance of a silica membrane prepared with dimethoxydiphenylsilane and its regeneration. Journal of Membrane Science 392-393, pages 95-100.
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C. Yacou, S. Smart & J. da Costa. (2012) Metal Oxide Silica Membranes for Gas Separation. Procedia Engineering 44, pages 513-514.
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Kai-Shiun Chang, Tomohisa Yoshioka, Masakoto Kanezashi, Toshinori Tsuru & Kuo-Lun Tung. (2011) Molecular simulation of micro-structures and gas diffusion behavior of organic–inorganic hybrid amorphous silica membranes. Journal of Membrane Science 381:1-2, pages 90-101.
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S. Smart, L.P. Ding & J.C. Diniz Da Costa. 2011. Advanced Membrane Science and Technology for Sustainable Energy and Environmental Applications. Advanced Membrane Science and Technology for Sustainable Energy and Environmental Applications
214
254
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Sadao Araki, Yasato Kiyohara, Satoshi Imasaka, Shunsuke Tanaka & Yoshikazu Miyake. (2011) Preparation and pervaporation properties of silica–zirconia membranes. Desalination 266:1-3, pages 46-50.
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Nathan W. Ockwig & Tina M. Nenoff. (2009) Membranes for Hydrogen Separation. Chemical Reviews 110:4, pages 2573-2574.
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S. Smart, C. X. C. Lin, L. Ding, K. Thambimuthu & J. C. Diniz da Costa. (2010) Ceramic membranes for gas processing in coal gasification. Energy & Environmental Science 3:3, pages 268.
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Jing Yang & Jierong Chen. (2008) Surface free energies and steam stability of methyl-modified silica membranes. Journal of Porous Materials 16:6, pages 737-744.
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Masakoto Kanezashi, Kazuya Yada, Tomohisa Yoshioka & Toshinori Tsuru. 2009. Advances in Bioceramics and Porous Ceramics II. Advances in Bioceramics and Porous Ceramics II
229
239
.
G. Xomeritakis, C.Y. Tsai, Y.B. Jiang & C.J. Brinker. (2009) Tubular ceramic-supported sol–gel silica-based membranes for flue gas carbon dioxide capture and sequestration. Journal of Membrane Science 341:1-2, pages 30-36.
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Kazuki Akamatsu, Masataka Nakane, Takashi Sugawara & Shin-ichi Nakao. (2009) Performance under thermal and hydrothermal condition of amorphous silica membrane prepared by chemical vapor deposition. AIChE Journal 55:8, pages 2197-2200.
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V. Boffa, J.E. ten Elshof, R. Garcia & D.H.A. Blank. (2009) Microporous niobia–silica membranes: Influence of sol composition and structure on gas transport properties. Microporous and Mesoporous Materials 118:1-3, pages 202-209.
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David Uhlmann, Shaomin Liu, Bradley P. Ladewig & João C. Diniz da Costa. (2009) Cobalt-doped silica membranes for gas separation. Journal of Membrane Science 326:2, pages 316-321.
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Vittorio Boffa, Johan E. ten Elshof, Andrei V. Petukhov & Dave H. A. Blank. (2008) Microporous Niobia–Silica Membrane with Very Low CO2 Permeability. ChemSusChem 1:5, pages 437-443.
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Clara Casado Coterillo, Ana María Urtiaga Mendia & Inmaculada Ortiz Uribe. 2008. Inorganic Membranes: Synthesis, Characterization and Applications. Inorganic Membranes: Synthesis, Characterization and Applications
217
253
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Nathan W. Ockwig & Tina M. Nenoff. (2007) Membranes for Hydrogen Separation. Chemical Reviews 107:10, pages 4078-4110.
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Masakoto Kanezashi & Masashi Asaeda. (2006) Hydrogen permeation characteristics and stability of Ni-doped silica membranes in steam at high temperature. Journal of Membrane Science 271:1-2, pages 86-93.
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Masakoto Kanezashi & Masashi Asaeda. (2005) Stability of H2-Permeselective Ni-doped Silica Membranes in Steam at High Temperature. JOURNAL OF CHEMICAL ENGINEERING OF JAPAN 38:11, pages 908-912.
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