2013

[113] Characterizing the Structure of Organic Molecules of Intrinsic Microporosity by Molecular Simulations and X-ray Scattering, L. J. Abbott, A. G. McDermott, A. Del Regno, R. G. D. Taylor, C. G. Bezzu, K. J. Msayib, N. B. McKeown, F. R. Siperstein, J. Runt, C. M. Colina, Journal of Physical Chemistry B 2013, 117, 355-364, 10.1021/jp308798u.

[114] Design principles for microporous organic solids from predictive computational screening, L. J. Abbott, N. B. McKeown, C. M. Colina, Journal of Materials Chemistry A 2013, 1, 11950-11960, 10.1039/c3ta12442h.

[115] Gas permeation parameters of mixed matrix membranes based on the polymer of intrinsic microporosity PIM-1 and the zeolitic imidazolate framework ZIF-8, A. F. Bushell, M. P. Attfield, C. R. Mason, P. M. Budd, Y. Yampolskii, L. Starannikova, A. Rebrov, F. Bazzarelli, P. Bernardo, J. C. Jansen, M. Lanc, K. Friess, V. Shantarovich, V. Gustov, V. Isaeva, Journal of Membrane Science 2013, 427, 48-62, 10.1016/j.memsci.2012.09.035.

[116] Nanoporous Organic Polymer/Cage Composite Membranes, A. F. Bushell, P. M. Budd, M. P. Attfield, J. T. A. Jones, T. Hasell, A. I. Cooper, P. Bernardo, F. Bazzarelli, G. Clarizia, J. C. Jansen, Angewandte Chemie-International Edition 2013, 52, 1253-1256, 10.1002/anie.201206339.

[117] An Efficient Polymer Molecular Sieve for Membrane Gas Separations, M. Carta, R. Malpass-Evans, M. Croad, Y. Rogan, J. C. Jansen, P. Bernardo, F. Bazzarelli, N. B. McKeown, Science 2013, 339, 303-307, 10.1126/science.1228032.

[118] Molecular modelling of polyimides with intrinsic microporosity: from structural characteristics to transport behaviour, K.-S. Chang, K.-L. Tung, Y.-F. Lin, H.-Y. Lin, Rsc Advances 2013, 3, 10403-10413, 10.1039/c3ra40196k.

[119] Effect of the Porosity of a Polymer of Intrinsic Microporosity (PIM) on Its Intrinsic Fluorescence, S. Chen, W. Yi, J. Duhamel, K. Heinrich, G. Bengtson, D. Fritsch, Journal of Physical Chemistry B 2013, 117, 5249-5260, 10.1021/jp307173k.

[120] Gas Solubility, Diffusivity, Permeability, and Selectivity in Mixed Matrix Membranes Based on PIM-1 and Fumed Silica, M. G. De Angelis, R. Gaddoni, G. C. Sarti, Industrial & Engineering Chemistry Research 2013, 52, 10506-10520, 10.1021/ie303571h.

[121] Polymers of Intrinsic Microporosity Containing Troger Base for CO2 Capture, A. Del Regno, A. Gonciaruk, L. Leay, M. Carta, M. Croad, R. Malpass-Evans, N. B. McKeown, F. R. Siperstein, Industrial & Engineering Chemistry Research 2013, 52, 16939-16950, 10.1021/ie402846a.

[122] Organic molecules of intrinsic microporosity: Characterization of novel microporous materials, A. Del Regno, F. R. Siperstein, Microporous and Mesoporous Materials 2013, 176, 55-63, 10.1016/j.micromeso.2013.03.041.

[123] Polymer Rigidity Improves Microporous Membranes, M. D. Guiver, Y. M. Lee, Science 2013, 339, 284-285, 10.1126/science.1232714.

[124] Analysis of force fields and BET theory for polymers of intrinsic microporosity, K. E. Hart, L. J. Abbott, C. M. Colina, Molecular Simulation 2013, 39, 397-404, 10.1080/08927022.2012.733945.

[125] Toward Effective CO2/CH4 Separations by Sulfur-Containing PIMs via Predictive Molecular Simulations, K. E. Hart, L. J. Abbott, N. B. McKeown, C. M. Colina, Macromolecules 2013, 46, 5371-5380, 10.1021/ma400334b.

[126] Simulated swelling during low-temperature N-2 adsorption in polymers of intrinsic microporosity, K. E. Hart, J. M. Springmeier, N. B. McKeown, C. M. Colina, Physical Chemistry Chemical Physics 2013, 15, 20161-20169, 10.1039/c3cp53402b.

[127] Gas sorption isotherms in swelling glassy polymers-Detailed atomistic simulations, O. Hoelck, M. Boehning, M. Heuchel, M. R. Siegert, D. Hofmann, Journal of Membrane Science 2013, 428, 523-532, 10.1016/j.memsci.2012.10.023.

[128] Synthesis of linear unbranched polymers chain free of macrocyclic species and oligomers based on chloro-monomers and TTSBI, F. Ibrahim, Elixir International Journal 2013, 19054-19059, 19056 pp.,

[129] Synthesis and characterization of linear polyimides with intrinsic microporosity and their hydrogen adsorption studies, F. Ibrahim, Elixir International Journal 2013, 17542-17548,

[130] A polymer of intrinsic microporosity as the active binder to enhance adsorption/separation properties of composite hollow fibres, C. A. Jeffs, M. W. Smith, C. A. Stone, C. G. Bezzu, K. J. Msayib, N. B. McKeown, S. P. Perera, Microporous and Mesoporous Materials 2013, 170, 105-112, 10.1016/j.micromeso.2012.11.039.

[131] Restricted Access: On the Nature of Adsorption/Desorption Hysteresis in Amorphous, Microporous Polymeric Materials, J. Jeromenok, J. Weber, Langmuir 2013, 29, 12982-12989, 10.1021/la402630s.

[132] Cross-linking of Polymer of Intrinsic Microporosity (PIM-1) via nitrene reaction and its effect on gas transport property, M. M. Khan, G. Bengtson, S. Shishatskiy, B. N. Gacal, M. M. Rahman, S. Neumann, V. Filiz, V. Abetz, European Polymer Journal 2013, 49, 4157-4166, 10.1016/j.eurpolymj.2013.09.022.

[133] Enhanced gas permeability by fabricating mixed matrix membranes of functionalized multiwalled carbon nanotubes and polymers of intrinsic microporosity (PIM), M. M. Khan, V. Filiz, G. Bengtson, S. Shishatskiy, M. M. Rahman, J. Lillepaerg, V. Abetz, Journal of Membrane Science 2013, 436, 109-120, 10.1016/j.memsci.2013.02.032.

[134] Single Polymer Chain Surface Area as a Descriptor for Rapid Screening of Microporous Polymers for Gas Adsorption, L. Leay, F. R. Siperstein, Adsorption Science & Technology 2013, 31, 99-112, 10.1260/0263-6174.31.1.99.

[135] Physical aging, high temperature and water vapor permeation studies of UV-rearranged PIM-1 membranes for advanced hydrogen purification and production, F. Y. Li, T.-S. Chung, International Journal of Hydrogen Energy 2013, 38, 9786-9793, 10.1016/j.ijhydene.2013.05.056.

[136] Gas sorption and permeation in PIM-1, P. Li, T. S. Chung, D. R. Paul, Journal of Membrane Science 2013, 432, 50-57, 10.1016/j.memsci.2013.01.009.

[137] Mechanically robust thermally rearranged (TR) polymer membranes with spirobisindane for gas separation, S. Li, H. J. Jo, S. H. Han, C. H. Park, S. Kim, P. M. Budd, Y. M. Lee, Journal of Membrane Science 2013, 434, 137-147, 10.1016/j.memsci.2013.01.011.

[138] Novel Spirobifluorene- and Dibromospirobifluorene-Based Polyimides of Intrinsic Microporosity for Gas Separation Applications, X. Ma, O. Salinas, E. Litwiller, I. Pinnau, Macromolecules 2013, 46, 9618-9624,

[139] Carbon molecular sieve gas separation membranes based on an intrinsically microporous polyimide precursor, X. Ma, R. Swaidan, B. Teng, H. Tan, O. Salinas, E. Litwiller, Y. Han, I. Pinnau, Carbon 2013, 62, 88-96, 10.1016/j.carbon.2013.05.057.

[140] Molecular modeling investigation of the fundamental structural parameters of polymers of intrinsic microporosity for the design of tailor-made ultra-permeable and highly selective gas separation membranes, T. M. Madkour, J. E. Mark, Journal of Membrane Science 2013, 431, 37-46, 10.1016/j.memsci.2012.12.033.

[141] Microporous organic polymers incorporating dicarboximide units for H-2 storage and remarkable CO2 capture, S. Makhseed, J. Samuel, Journal of Materials Chemistry A 2013, 1, 13004-13010, 10.1039/c3ta12233f.

[142] New organophilic mixed matrix membranes derived from a polymer of intrinsic microporosity and silicalite-1, C. R. Mason, M. G. Buonomenna, G. Golemme, P. M. Budd, F. Galiano, A. Figoli, K. Friess, V. Hynek, Polymer 2013, 54, 2222-2230, 10.1016/j.polymer.2013.02.032.

[143] Polymers of intrinsic microporosity, N. B. McKeown, P. M. Budd, Encyclopedia of Membrane Science and Technology 2013, 2, 781-797, 10.1002/9781118522318.emst057.

[144] Modeling gas and vapor sorption in a polymer of intrinsic microporosity (PIM-1), M. Minelli, K. Friess, O. Vopicka, M. G. De Angelis, Fluid Phase Equilibria 2013, 347, 35-44, 10.1016/j.fluid.2013.03.003.

[145] Molecular Motions of Adsorbed CO2 on a Tetrazole-Functionalized PIM Polymer Studied with C-13 NMR, J. K. Moore, M. D. Guiver, N. Du, S. E. Hayes, M. S. Conradi, Journal of Physical Chemistry C 2013, 117, 22995-22999, 10.1021/jp4084234.

[146] Synthesis and gas permeation properties of novel spirobisindane-based polyimides of intrinsic microporosity, Y. Rogan, L. Starannikova, V. Ryzhikh, Y. Yampolskii, P. Bernardo, F. Bazzarelli, J. C. Jansen, N. B. McKeown, Polymer Chemistry 2013, 4, 3813-3820, 10.1039/c3py00451a.

[147] Photo-oxidative enhancement of polymeric molecular sieve membranes, Q. Song, S. Cao, P. Zavala-Rivera, L. P. Lu, W. Li, Y. Ji, S. A. Al-Muhtaseb, A. K. Cheetham, E. Sivaniah, Nature Communications 2013, 4, 10.1038/ncomms2942.

[148] High pressure pure- and mixed-gas separation of CO2/CH4 by thermally-rearranged and carbon molecular sieve membranes derived from a polyimide of intrinsic microporosity, R. Swaidan, X. Ma, E. Litwiller, I. Pinnau, Journal of Membrane Science 2013, 447, 387-394, 10.1016/j.memsci.2013.07.057.

[149] T. Visser, Y. Gao, Parker Filtration B.V., Neth.; Vaperma Inc. . 2013, p. No pp. given.

[150] Equilibrium and transient sorption of vapours and gases in the polymer of intrinsic microporosity PIM-1, O. Vopicka, K. Friess, V. Hynek, P. Sysel, M. Zgazar, M. Sipek, K. Pilnacek, M. Lanc, J. C. Jansen, C. R. Mason, P. M. Budd, Journal of Membrane Science 2013, 434, 148-160, 10.1016/j.memsci.2013.01.040.

[151] Highly permeable chemically modified PIM-1/Matrimid membranes for green hydrogen purification, W. F. Yong, F. Y. Li, T.-S. Chung, Y. W. Tong, Journal of Materials Chemistry A 2013, 1, 13914-13925, 10.1039/c3ta13308g.

[152] High performance PIM-1/Matrimid hollow fiber membranes for CO2/CH4, O-2/N-2 and CO2/N-2 separation, W. F. Yong, F. Y. Li, Y. C. Xiao, T. S. Chung, Y. W. Tong, Journal of Membrane Science 2013, 443, 156-169, 10.1016/j.memsci.2013.04.037.

 

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