Conjugated microporous poly (aryleneethynylene) networks JX Jiang, F Su, A Trewin, CD Wood, NL Campbell, H Niu, C Dickinson, ... Angewandte Chemie 119 (45), 8728, 2007 | 1602 | 2007 |
Polymer synthesis and processing using supercritical carbon dioxide AI Cooper Journal of Materials Chemistry 10 (2), 207-234, 2000 | 1299 | 2000 |
Nanoporous organic polymer networks R Dawson, AI Cooper, DJ Adams Progress in Polymer Science 37 (4), 530-563, 2012 | 1223 | 2012 |
Porous organic cages T Tozawa, JTA Jones, SI Swamy, S Jiang, DJ Adams, S Shakespeare, ... Nature materials 8 (12), 973-978, 2009 | 1138 | 2009 |
Conjugated microporous polymers AI Cooper Advanced Materials 21 (12), 1291-1295, 2009 | 1077 | 2009 |
A mobile robotic chemist B Burger, PM Maffettone, VV Gusev, CM Aitchison, Y Bai, X Wang, X Li, ... Nature 583 (7815), 237-241, 2020 | 1058 | 2020 |
Sulfone-containing covalent organic frameworks for photocatalytic hydrogen evolution from water X Wang, L Chen, SY Chong, MA Little, Y Wu, WH Zhu, R Clowes, Y Yan, ... Nature chemistry 10 (12), 1180-1189, 2018 | 1020 | 2018 |
Advances in conjugated microporous polymers JSM Lee, AI Cooper Chemical reviews 120 (4), 2171-2214, 2020 | 1017 | 2020 |
Synthetic control of the pore dimension and surface area in conjugated microporous polymer and copolymer networks JX Jiang, F Su, A Trewin, CD Wood, H Niu, JTA Jones, YZ Khimyak, ... Journal of the American Chemical Society 130 (24), 7710-7720, 2008 | 945 | 2008 |
Aligned two-and three-dimensional structures by directional freezing of polymers and nanoparticles H Zhang, I Hussain, M Brust, MF Butler, SP Rannard, AI Cooper Nature materials 4 (10), 787-793, 2005 | 872 | 2005 |
Tunable organic photocatalysts for visible-light-driven hydrogen evolution RS Sprick, JX Jiang, B Bonillo, S Ren, T Ratvijitvech, P Guiglion, ... Journal of the American Chemical Society 137 (9), 3265-3270, 2015 | 851 | 2015 |
Porous materials. Function-led design of new porous materials. AG Slater, AI Cooper Science (New York, NY) 348 (6238), aaa8075-aaa8075, 2015 | 836 | 2015 |
Porous, fluorescent, covalent triazine-based frameworks via room-temperature and microwave-assisted synthesis S Ren, MJ Bojdys, R Dawson, A Laybourn, YZ Khimyak, DJ Adams, ... Adv. Mater 24 (17), 2357-2361, 2012 | 777 | 2012 |
Current understanding and challenges of solar-driven hydrogen generation using polymeric photocatalysts Y Wang, A Vogel, M Sachs, RS Sprick, L Wilbraham, SJA Moniz, R Godin, ... Nature Energy 4 (9), 746-760, 2019 | 772 | 2019 |
Hydrogen storage in microporous hypercrosslinked organic polymer networks CD Wood, B Tan, A Trewin, H Niu, D Bradshaw, MJ Rosseinsky, ... Chemistry of materials 19 (8), 2034-2048, 2007 | 757 | 2007 |
The new age of MOFs and of their porous-related solids G Maurin, C Serre, A Cooper, G Férey Chemical Society Reviews 46 (11), 3104-3107, 2017 | 704 | 2017 |
Function-led design of new porous materials AG Slater, AI Cooper Science 348 (6238), aaa8075, 2015 | 696 | 2015 |
Porous organic cages: soluble, modular and molecular pores T Hasell, AI Cooper Nature Reviews Materials 1 (9), 1-14, 2016 | 687 | 2016 |
Triazine‐based graphitic carbon nitride: a two‐dimensional semiconductor G Algara‐Siller, N Severin, SY Chong, T Björkman, RG Palgrave, ... Angewandte Chemie International Edition 53 (29), 7450-7455, 2014 | 682 | 2014 |
Microporous organic polymers for carbon dioxide capture R Dawson, E Stöckel, JR Holst, DJ Adams, AI Cooper Energy & Environmental Science 4 (10), 4239-4245, 2011 | 645 | 2011 |