2008

[27] Pervaporation of alcohols through highly permeable PIM-1 polymer films, S. V. Adymkanov, Y. P. Yampol’skii, A. M. Polyakov, P. M. Budd, K. J. Reynolds, N. B. McKeown, K. J. Msayib, Polymer Science Series A 2008, 50, 444-450, 10.1134/s0965545x08040135.

[28] Gas permeation parameters and other physicochemical properties of a polymer of intrinsic microporosity: Polybenzodioxane PIM-1, P. M. Budd, N. B. McKeown, B. S. Ghanem, K. J. Msayib, D. Fritsch, L. Starannikova, N. Belov, O. Sanfirova, Y. Yampolskii, V. Shantarovich, Journal of Membrane Science 2008, 325, 851-860, 10.1016/j.memsci.2008.09.010.

[29] Novel spirobisindanes for use as precursors to polymers of intrinsic microporosity, M. Carta, K. J. Msayib, P. M. Budd, N. B. McKeown, Organic Letters 2008, 10, 2641-2643, 10.1021/ol800573m.

[30] Functionalized analogues of Troger’s base: scope and limitations of a general synthetic procedure and facile, predictable method for the separation of enantiomers, D. Didier, B. Tylleman, N. Lambert, C. Velde, F. Blockhuys, A. Collas, S. Sergeyev, Tetrahedron 2008, 64, 6252-6262, 10.1016/j.tet.2008.04.111.

[31] Polymers of Intrinsic Microporosity Containing Trifluoromethyl and Phenylsulfone Groups as Materials for Membrane Gas Separation, N. Du, G. P. Robertson, J. Song, I. Pinnau, S. Thomas, M. D. Guiver, Macromolecules 2008, 41, 9656-9662, 10.1021/ma801858d.

[32] Linear high molecular weight ladder polymer via fast polycondensation of 5,5′,6,6′-tetrahydroxy-3,3,3′,3′-tetramethylspirobisindane with 1,4-dicyanotetrafluorobenzene, N. Du, J. Song, G. P. Robertson, I. Pinnau, M. D. Guiver, Macromolecular Rapid Communications 2008, 29, 783-788, 10.1002/marc.200800038.

[33] Polymers of intrinsic microporosity derived from bis(phenazyl) monomers, B. S. Ghanem, N. B. McKeown, P. M. Budd, D. Fritsch, Macromolecules 2008, 41, 1640-1646, 10.1021/ma071846r.

[34] High-performance membranes from polyimides with intrinsic microporosity, B. S. Ghanem, N. B. McKeown, P. M. Budd, J. D. Selbie, D. Fritsch, Advanced Materials 2008, 20, 2766-+, 10.1002/adma.200702400.

[35] Atomistic packing model and free volume distribution of a polymer with intrinsic microporosity (PIM-1), M. Heuchel, D. Fritsch, P. M. Budd, N. B. McKeown, D. Hofmann, Journal of Membrane Science 2008, 318, 84-99, 10.1016/j.memsci.2008.02.038.

[36] Catalysis by microporous phthalocyanine and porphyrin network polymers, H. J. Mackintosh, P. M. Budd, N. B. McKeown, J. Mater. Chem. 2008, 18, 573-578, 10.1039/b715660j.

[37] Synthesis and characterization of fluoropolymers with intrinsic microporosity and their hydrogen adsorption studies, S. Makhseed, J. Samuel, A. Bumajdad, M. Hassan, Journal of Applied Polymer Science 2008, 109, 2591-2597, 10.1002/app.28372.

[38] Linear High Molecular Weight Ladder Polymers by Optimized Polycondensation of Tetrahydroxytetramethylspirobisindane and 1,4-Dicyanotetrafluorobenzene, J. Song, N. Du, Y. Dai, G. P. Robertson, M. D. Guiver, S. Thomas, I. Pinnau, Macromolecules 2008, 41, 7411-7417, 10.1021/ma801000u.

[39] Gas separation, free volume distribution, and physical aging of a highly microporous spirobisindane polymer, C. L. Staiger, S. J. Pas, A. J. Hill, C. J. Cornelius, Chemistry of Materials 2008, 20, 2606-2608, 10.1021/cm071722t.

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