| Post-Combustion CO2 Capture Using Solid Sorbents: A Review A Samanta, A Zhao, GKH Shimizu, P Sarkar, R Gupta Industrial & Engineering Chemistry Research 51 (4), 1438-1463, 2012 | 2062 | 2012 |
| MOFs as proton conductors–challenges and opportunities P Ramaswamy, NE Wong, GKH Shimizu Chemical Society Reviews 43 (16), 5913-5932, 2014 | 1336 | 2014 |
| Direct observation and quantification of CO2 binding within an amine-functionalized nanoporous solid R Vaidhyanathan, SS Iremonger, GKH Shimizu, PG Boyd, S Alavi, ... Science 330 (6004), 650-653, 2010 | 977 | 2010 |
| Anhydrous proton conduction at 150 C in a crystalline metal–organic framework JA Hurd, R Vaidhyanathan, V Thangadurai, CI Ratcliffe, IL Moudrakovski, ... Nature chemistry 1 (9), 705-710, 2009 | 777 | 2009 |
| Phosphonate and sulfonate metal organic frameworks GKH Shimizu, R Vaidhyanathan, JM Taylor Chemical Society Reviews 38 (5), 1430-1449, 2009 | 704 | 2009 |
| A scalable metal-organic framework as a durable physisorbent for carbon dioxide capture JB Lin, TTT Nguyen, R Vaidhyanathan, J Burner, JM Taylor, H Durekova, ... Science 374 (6574), 1464-1469, 2021 | 546 | 2021 |
| A water-stable metal–organic framework with highly acidic pores for proton-conducting applications JM Taylor, KW Dawson, GKH Shimizu Journal of the American Chemical Society 135 (4), 1193-1196, 2013 | 455 | 2013 |
| Facile proton conduction via ordered water molecules in a phosphonate metal− organic framework JM Taylor, RK Mah, IL Moudrakovski, CI Ratcliffe, R Vaidhyanathan, ... Journal of the american chemical society 132 (40), 14055-14057, 2010 | 422 | 2010 |
| Proton conduction with metal-organic frameworks GKH Shimizu, JM Taylor, SR Kim Science 341 (6144), 354-355, 2013 | 409 | 2013 |
| Microporous metal− organic frameworks formed in a stepwise manner from luminescent building blocks BD Chandler, DT Cramb, GKH Shimizu Journal of the American Chemical Society 128 (32), 10403-10412, 2006 | 404 | 2006 |
| The supramolecular chemistry of the sulfonate group in extended solids AP Côté, GKH Shimizu Coordination chemistry reviews 245 (1-2), 49-64, 2003 | 346 | 2003 |
| Proton conductive metal phosphonate frameworks SS Bao, GKH Shimizu, LM Zheng Coordination Chemistry Reviews 378, 577-594, 2019 | 340 | 2019 |
| An amine-functionalized metal organic framework for preferential CO2 adsorption at low pressures R Vaidhyanathan, SS Iremonger, KW Dawson, GKH Shimizu Chemical communications, 5230-5232, 2009 | 331 | 2009 |
| Enhancing proton conduction in a metal–organic framework by isomorphous ligand replacement SR Kim, KW Dawson, BS Gelfand, JM Taylor, GKH Shimizu Journal of the American Chemical Society 135 (3), 963-966, 2013 | 318 | 2013 |
| A Water Stable Magnesium MOF That Conducts Protons over 10–2 S cm–1 P Ramaswamy, NE Wong, BS Gelfand, GKH Shimizu Journal of the American Chemical Society 137 (24), 7640-7643, 2015 | 301 | 2015 |
| Achieving superprotonic conduction in metal–organic frameworks through iterative design advances SR Kim, B Joarder, JA Hurd, J Zhang, KW Dawson, BS Gelfand, NE Wong, ... Journal of the American Chemical Society 140 (3), 1077-1082, 2018 | 271 | 2018 |
| Enhancing water stability of metal–organic frameworks via phosphonate monoester linkers JM Taylor, R Vaidhyanathan, SS Iremonger, GKH Shimizu Journal of the American Chemical Society 134 (35), 14338-14340, 2012 | 248 | 2012 |
| Mechanical gas capture and release in a network solid via multiple single-crystalline transformations BD Chandler, GD Enright, KA Udachin, S Pawsey, JA Ripmeester, ... Nature Materials 7 (3), 229-235, 2008 | 190 | 2008 |
| Crystal engineering of a permanently porous network sustained exclusively by charge-assisted hydrogen bonds SA Dalrymple, GKH Shimizu Journal of the American Chemical Society 129 (40), 12114-12116, 2007 | 190 | 2007 |
| Supramolecular Arrays of 4,7‐Phenanthroline Complexes: Self‐Assembly of Molecular Pd6 Hexagons JR Hall, SJ Loeb, GKH Shimizu, GPA Yap Angewandte Chemie International Edition 37 (1‐2), 121-123, 1998 | 166 | 1998 |
