2015

[208] Aligned macroporous monoliths with intrinsic microporosity via a frozen-solvent-templating approachd, A. Ahmed, T. Hasell, R. Clowes, P. Myers, A. I. Cooper, H. Zhang, Chem. Commun. 2015, 51, 1717-1720, 10.1039/c4cc08919g.

[209] Polymers of intrinsic microporosity as high temperature templates for the formation of nanofibrous oxides, H. Al Kutubi, L. Rassaei, W. Olthuis, G. W. Nelson, J. S. Foord, P. Holdway, M. Carta, R. Malpass-Evans, N. B. McKeown, S. C. Tsang, R. Castaing, T. R. Forder, M. D. Jones, D. He, F. Marken, Rsc Advances 2015, 5, 73323-73326, 10.1039/c5ra15131g.

[210] Gas permeation and physical aging properties of iptycene diamine-based microporous polyimides, F. Alghunaimi, B. Ghanem, N. Alaslai, R. Swaidan, E. Litwiller, I. Pinnau, Journal of Membrane Science 2015, 490, 321-327, 10.1016/j.memsci.2015.05.010.

[211] Application of PIM-1 for solvent swing adsorption and solvent recovery by nanofiltration, T. S. Anokhina, A. A. Yushkin, P. M. Budd, A. V. Volkov, Separation and Purification Technology 2015, 156, 683-690,

[212] Fabrication of ultrathin films containing the metal organic framework Fe-MIL-88B-NH2 by the Langmuir-Blodgett technique, J. Benito, M. Fenero, S. Sorribas, B. Zornoza, K. J. Msayib, N. B. McKeown, C. Tellez, J. Coronas, I. Gascon, Colloids and Surfaces a-Physicochemical and Engineering Aspects 2015, 470, 161-170, 10.1016/j.colsurfa.2015.01.082.

[213] High Temperature Mass Detection Using a Carbon Nanotube Bilayer Modified Quartz Crystal Microbalance as a GC Detector, M. Benz, L. Benz, S. V. Patel, Analytical Chemistry 2015, 87, 2779-2787, 10.1021/ac504101a.

[214] Interaction of a polymer of intrinsic microporosity (PIM-1) with penetrants, N. Chaukura, L. Maynard-Atem, American Journal of Applied Chemistry 2015, 3, 139-146, 10.11648/j.ajac.20150303.17.

[215] In Silico Determination of Gas Permeabilities by Non-Equilibrium Molecular Dynamics: CO2 and He through PIM-1, H. Frentrup, K. E. Hart, C. M. Colina, E. A. Muller, Membranes 2015, 5, 99-119, 10.3390/membranes5010099.

[216] PIM-1/graphene composite: A combined experimental and molecular simulation study, A. Gonciaruk, K. Althumayri, W. J. Harrison, P. M. Budd, F. R. Siperstein, Microporous and Mesoporous Materials 2015, 209, 126-134, 10.1016/j.micromeso.2014.07.007.

[217] An n-type, new emerging luminescent polybenzodioxane polymer for application in solution-processed green emitting OLEDs, B. K. Gupta, G. Kedawat, P. Kumar, M. A. Rafiee, P. Tyagi, R. Srivastava, P. M. Ajayan, Journal of Materials Chemistry C 2015, 3, 2568-2574, 10.1039/c4tc02581d.

[218] Photo-oxidative PIM-1 based mixed matrix membranes with superior gas separation performance, L. Hao, K.-S. Liao, T.-S. Chung, Journal of Materials Chemistry A 2015, 3, 17273-17281, 10.1039/c5ta03776j.

[219] Intrinsically microporous polymer slows down fuel cell catalyst corrosion, D. He, Y. Rong, Z. Kou, S. Mu, T. Peng, R. Malpass-Evans, M. Carta, N. B. McKeown, F. Marken, Electrochemistry Communications 2015, 59, 72-76, 10.1016/j.elecom.2015.07.008.

[220] Microwave-assisted synthesis of mesoporous metal-organic framework NH2-MIL-101(Al), V. I. Isaeva, A. L. Tarasov, L. E. Starannikova, Y. P. Yampol’skii, A. Y. Alent’ev, L. M. Kustov, Russian Chemical Bulletin 2015, 64, 2791-2795, 10.1007/s11172-015-1227-5.

[221] Effect of Nonsolvent Treatments on the Microstructure of PIM-1, M. L. Jue, C. S. McKay, B. A. McCool, M. G. Finn, R. P. Liyely, Macromolecules 2015, 48, 5780-5790, 10.1021/acs.macromol.5b01507.

[222] Enhanced gas permeability by fabricating mixed matrix membranes of functionalized multiwalled carbon nanotubes and polymers of intrinsic microporosity (PIM) (vol 436, pg 109, 2013), M. M. Khan, V. Filiz, G. Bengtson, S. Shishatskiy, M. M. Rahman, J. Lillepaerg, V. Abetz, Journal of Membrane Science 2015, 476, 610-611, 10.1016/j.memsci.2015.01.002.

[223] Free Volume and Gas Permeation in Anthracene Maleimide-Based Polymers of Intrinsic Microporosity, M. M. Khan, V. Filiz, T. Emmler, V. Abetz, T. Koschine, K. Raetzke, F. Faupel, W. Egger, L. Ravelli, Membranes 2015, 5, 214-227, 10.3390/membranes5020214.

[224] Rigid and microporous polymers for gas separation membranes, S. Kim, Y. M. Lee, Progress in Polymer Science 2015, 43, 1-32, 10.1016/j.progpolymsci.2014.10.005.

[225] Electrocatalytic Carbohydrate Oxidation with 4-Benzoyloxy-TEMPO Heterogenised in a Polymer of Intrinsic Microporosity, A. Kolodziej, S. D. Ahn, M. Carta, R. Malpass-Evans, N. B. McKeown, R. S. L. Chapman, S. D. Bull, F. Marken, Electrochimica Acta 2015, 160, 195-201, 10.1016/j.electacta.2015.01.106.

[226] Correlation of Gas Permeation and Free Volume in New and used High Free Volume Thin Film Composite Membranes, T. Koschine, K. Raetzke, F. Faupel, M. M. Khan, T. Emmler, V. Filiz, V. Abetz, L. Ravelli, W. Egger, Journal of Polymer Science Part B-Polymer Physics 2015, 53, 213-217, 10.1002/polb.23616.

[227] Gas-Separation Membranes Loaded with Porous Aromatic Frameworks that Improve with Age, C. H. Lau, K. Konstas, A. W. Thornton, A. C. Y. Liu, S. Mudie, D. F. Kennedy, S. C. Howard, A. J. Hill, M. R. Hill, Angewandte Chemie-International Edition 2015, 54, 2669-2673, 10.1002/anie.201410684.

[228] Polysulfide-Blocking Microporous Polymer Membrane Tailored for Hybrid Li-Sulfur Flow Batteries, C. Li, A. L. Ward, S. E. Doris, T. A. Pascal, D. Prendergast, B. A. Helms, Nano Letters 2015, 15, 5724-5729, 10.1021/acs.nanolett.5b02078.

[229] Self-healing anti-corrosion coatings based on polymers of intrinsic microporosity for the protection of aluminum alloy, Z. Li, B. Qin, X. Zhang, K. Wang, Y. Wei, Y. Ji, Rsc Advances 2015, 5, 104451-104457,

[230] Triptycene-Based Microporous Polymer Incorporating Thioamide Functionality: Preparation and Gas Storage Properties, L. Liu, Y. Xia, J. Zhang, Journal of Polymer Science Part a-Polymer Chemistry 2015, 53, 2193-2197, 10.1002/pola.27709.

[231] Pentiptycene-based polyimides with hierarchically controlled molecular cavity architecture for efficient membrane gas separation, S. Luo, Q. Liu, B. Zhang, J. R. Wiegand, B. D. Freeman, R. Guo, Journal of Membrane Science 2015, 480, 20-30, 10.1016/j.memsci.2015.01.043.

[232] Synthesis and Effect of Physical Aging on Gas Transport Properties of a Microporous Polyimide Derived from a Novel Spirobifluorene-Based Dianhydride, X. Ma, B. Ghanem, O. Salines, E. Litwiller, I. Pinnau, Acs Macro Letters 2015, 4, 231-235, 10.1021/acsmacrolett.5b00009.

[233] Water desalination concept using an ionic rectifier based on a polymer of intrinsic microporosity (PIM), E. Madrid, P. Cottis, Y. Rong, A. T. Rogers, J. M. Stone, R. Malpass-Evans, M. Carta, N. B. McKeownd, F. Marken, Journal of Materials Chemistry A 2015, 3, 15849-15853, 10.1039/c5ta04092b.

[234] Using intermolecular interactions to crosslink PIM-1 and modify its gas sorption properties, T. O. McDonald, R. Akhtar, C. H. Lau, T. Ratvijitvech, G. Cheng, R. Clowes, D. J. Adams, T. Hasell, A. I. Cooper, Journal of Materials Chemistry A 2015, 3, 4855-4864, 10.1039/c4ta06070a.

[235] Sub-micron Polymer-Zeolitic Imidazolate Framework Layered Hybrids via Controlled Chemical Transformation of Naked ZnO Nanocrystal Films, S. M. Meckler, C. Li, W. L. Queen, T. E. Williams, J. R. Long, R. Buonsanti, D. J. Milliron, B. A. Helms, Chemistry of Materials 2015, 27, 7673-7679, 10.1021/acs.chemmater.5b03219.

[236] UV-Visible and Plasmonic Nanospectroscopy of the CO2 Adsorption Energetics in a Microporous Polymer, F. A. A. Nugroho, C. Xu, N. Hedin, C. Langhammer, Analytical Chemistry 2015, 87, 10161-10165, 10.1021/acs.analchem.5b03108.

[237] Soluble, microporous ladder polymers formed by stepwise nucleophilic substitution of octafluorocyclopentene, K. Ranganathan, P. Anbanandam, Polymer Chemistry 2015, 6, 4560-4564, 10.1039/c5py00359h.

[238] Intrinsically Microporous Polymer Retains Porosity in Vacuum Thermolysis to Electroactive Heterocarbon, Y. Rong, D. He, A. Sanchez-Fernandez, C. Evans, K. J. Edler, R. Malpass-Evans, M. Carta, N. B. McKeown, T. J. Clarke, S. H. Taylor, A. J. Wain, J. M. Mitchels, F. Marken, Langmuir 2015, 31, 12300-12306, 10.1021/acs.langmuir.5b02654.

[239] Highly Permeable Benzotriptycene-Based Polymer of Intrinsic Microporosity, I. Rose, M. Carta, R. Malpass-Evans, M.-C. Ferrari, P. Bernardo, G. Clarizia, J. C. Jansen, N. B. McKeown, Acs Macro Letters 2015, 4, 912-915, 10.1021/acsmacrolett.5b00439.

[240] Hydroxyalkylaminoalkylamide PIMs: Selective Adsorption by Ethanolamine- and Diethanolamine-Modified PIM-1, B. Satilmis, M. N. Alnajrani, P. M. Budd, Macromolecules 2015, 48, 5663-5669, 10.1021/acs.macromol.5b01196.

[241] Competitive Permeation of Gas and Water Vapour in High Free Volume Polymeric Membranes, C. A. Scholes, J. Jin, G. W. Stevens, S. E. Kentish, Journal of Polymer Science Part B-Polymer Physics 2015, 53, 719-728, 10.1002/polb.23689.

[242] Comparison of thin film composite and microporous membrane contactors for CO2 absorption into monoethanolamine, C. A. Scholes, S. E. Kentish, G. W. Stevens, D. de Montigny, Int. J. Greenhouse Gas Control 2015, 42, 66-74, 10.1016/j.ijggc.2015.07.032.

[243] Thin-film composite membrane contactors for desorption of CO2 from Monoethanolamine at elevated temperatures, C. A. Scholes, S. E. Kentish, G. W. Stevens, J. Jin, D. deMontigny, Separation and Purification Technology 2015, 156, 841-847,

[244] Effect of methanol treatment on gas sorption and transport behavior of intrinsically microporous polyimide membranes incorporating Troger’s base, J. G. Seong, Y. Zhuang, S. Kim, Y. S. Do, W. H. Lee, M. D. Guiver, Y. M. Lee, Journal of Membrane Science 2015, 480, 104-114, 10.1016/j.memsci.2015.01.022.

[245] Post-synthetic Ti Exchanged UiO-66 Metal-Organic Frameworks that Deliver Exceptional Gas Permeability in Mixed Matrix Membranes, S. J. D. Smith, B. P. Ladewig, A. J. Hill, C. H. Lau, M. R. Hill, Scientific Reports 2015, 5, 10.1038/srep07823.

[246] Effects of hydroxyl-functionalization and sub-T-g thermal annealing on high pressure pure- and mixed-gas CO2/CH4 separation by polyimide membranes based on 6FDA and triptycene-containing, R. Swaidan, B. Ghanem, E. Litwiller, I. Pinnau, Journal of Membrane Science 2015, 475, 571-581, 10.1016/j.memsci.2014.10.046.

[247] Physical Aging, Plasticization and Their Effects on Gas Permeation in “Rigid” Polymers of Intrinsic Microporosity, R. Swaidan, B. Ghanem, E. Litwiller, I. Pinnau, Macromolecules 2015, 48, 6553-6561, 10.1021/acs.macromol.5b01581.

[248] Fine-Tuned Intrinsically Ultramicroporous Polymers Redefine the Permeability/Selectivity Upper Bounds of Membrane-Based Air and Hydrogen Separations, R. Swaidan, B. Ghanem, I. Pinnau, Acs Macro Letters 2015, 4, 947-951, 10.1021/acsmacrolett.5b00512.

[249] Pure- and mixed-gas propylene/propane permeation properties of spiro- and triptycene-based microporous polyimides, R. J. Swaidan, B. Ghanem, R. Swaidan, E. Litwiller, I. Pinnau, Journal of Membrane Science 2015, 492, 116-122, 10.1016/j.memsci.2015.05.044.

[250] Enhanced propylene/propane separation by thermal annealing of an intrinsically microporous hydroxyl-functionalized polyimide membrane, R. J. Swaidan, X. Ma, E. Litwiller, I. Pinnau, Journal of Membrane Science 2015, 495, 235-241, 10.1016/j.memsci.2015.08.015.

[251] Preparation and characterization of spirobisindane linked porphyrins-based polyamide networks with intrinsic microporosity and catalyst of Knoevenagel condensation, J.-y. Wang, Q. Wu, Y. Jiang, C.-l. Zhang, X.-k. Liu, Gongneng Gaofenzi Xuebao 2015, 28, 26-31,

[252] Chiral Polymers of Intrinsic Microporosity: Selective Membrane Permeation of Enantiomers, X. Weng, J. E. Baez, M. Khiterer, M. Y. Hoe, Z. Bao, K. J. Shea, Angewandte Chemie-International Edition 2015, 54, 11214-11218, 10.1002/anie.201504934.

[253] Towards enhanced CO2 selectivity of the PIM-1 membrane by blending with polyethylene glycol, X. M. Wu, Q. G. Zhang, P. J. Lin, Y. Qu, A. M. Zhu, Q. L. Liu, Journal of Membrane Science 2015, 493, 147-155, 10.1016/j.memsci.2015.05.077.

[254] A high-performance hydroxyl-functionalized polymer of intrinsic microporosity for an environmentally attractive membrane-based approach to decontamination of sour natural gas, S. Yi, X. Ma, I. Pinnau, W. J. Koros, Journal of Materials Chemistry A 2015, 3, 22794-22806, 10.1039/c5ta05928c.

[255] Miscible blends of carboxylated polymers of intrinsic microporosity (cPIM-1) and Matrimid, W. F. Yong, T.-S. Chung, Polymer 2015, 59, 290-297, 10.1016/j.polymer.2015.01.013.

[256] Suppression of aging and plasticization in highly permeable polymers, W. F. Yong, K. H. A. Kwek, K.-S. Liao, T.-S. Chung, Polymer 2015, 77, 377-386, 10.1016/j.polymer.2015.09.075.

[257] Study of glassy polymers fractional accessible volume (FAV) by extended method of hydrostatic weighing: Effect of porous structure on liquid transport, A. Yushkin, A. Grekhov, S. Matson, M. Bermeshev, V. Khotimsky, E. Finkelstein, P. M. Budd, V. Volkov, T. J. H. Vlugt, A. Volkov, Reactive & Functional Polymers 2015, 86, 269-281, 10.1016/j.reactfunctpolym.2014.06.010.

[258] Selective removal of butanol from aqueous solution by pervaporation with a PIM-1 membrane and membrane aging, M. Zak, M. Klepic, L. C. Stastna, Z. Sedlakova, H. Vychodilova, S. Hovorka, K. Friess, A. Randova, L. Brozova, J. C. Jansen, M. R. Khdhayyer, P. M. Budd, P. Izak, Separation and Purification Technology 2015, 151, 108-114, 10.1016/j.seppur.2015.07.041.

[259] Electrospun Microfibrous Membranes Based on PIM-1/POSS with High Oil Wettability for Separation of Oil-Water Mixtures and Cleanup of Oil Soluble Contaminants, C. Zhang, P. Li, B. Cao, Industrial & Engineering Chemistry Research 2015, 54, 8772-8781, 10.1021/acs.iecr.5b02321.