Carbon capture and storage (CCS): the way forward M Bui, CS Adjiman, A Bardow, EJ Anthony, A Boston, S Brown, ... Energy & Environmental Science 11 (5), 1062-1176, 2018 | 3683 | 2018 |
Cooperative insertion of CO2 in diamine-appended metal-organic frameworks TM McDonald, JA Mason, X Kong, ED Bloch, D Gygi, A Dani, V Crocella, ... Nature 519 (7543), 303-308, 2015 | 1212 | 2015 |
Data-driven design of metal–organic frameworks for wet flue gas CO2 capture PG Boyd, A Chidambaram, E García-Díez, CP Ireland, TD Daff, R Bounds, ... Nature 576 (7786), 253-256, 2019 | 619 | 2019 |
Mapping of functional groups in metal-organic frameworks X Kong, H Deng, F Yan, J Kim, JA Swisher, B Smit, OM Yaghi, JA Reimer Science 341 (6148), 882-885, 2013 | 495 | 2013 |
Investigations of the State of Fe in H–ZSM-5 LJ Lobree, IC Hwang, JA Reimer, AT Bell Journal of Catalysis 186 (2), 242-253, 1999 | 489 | 1999 |
Chemical conversion of linkages in covalent organic frameworks PJ Waller, SJ Lyle, TM Osborn Popp, CS Diercks, JA Reimer, OM Yaghi Journal of the American Chemical Society 138 (48), 15519-15522, 2016 | 478 | 2016 |
Metal–organic frameworks with precisely designed interior for carbon dioxide capture in the presence of water AM Fracaroli, H Furukawa, M Suzuki, M Dodd, S Okajima, F Gándara, ... Journal of the American Chemical Society 136 (25), 8863-8866, 2014 | 458 | 2014 |
The Chemistry of CO2 Capture in an Amine-Functionalized Metal–Organic Framework under Dry and Humid Conditions RW Flaig, TM Osborn Popp, AM Fracaroli, EA Kapustin, MJ Kalmutzki, ... Journal of the American Chemical Society 139 (35), 12125-12128, 2017 | 419 | 2017 |
A molecular surface functionalization approach to tuning nanoparticle electrocatalysts for carbon dioxide reduction Z Cao, D Kim, D Hong, Y Yu, J Xu, S Lin, X Wen, EM Nichols, K Jeong, ... Journal of the American Chemical Society 138 (26), 8120-8125, 2016 | 395 | 2016 |
Structure and density of Mo and acid sites in Mo-exchanged H-ZSM5 catalysts for nonoxidative methane conversion RW Borry, YH Kim, A Huffsmith, JA Reimer, E Iglesia The Journal of Physical Chemistry B 103 (28), 5787-5796, 1999 | 381 | 1999 |
Electron paramagnetic resonance studies of copper ion-exchanged ZSM-5 SC Larsen, A Aylor, AT Bell, JA Reimer The Journal of Physical Chemistry 98 (44), 11533-11540, 1994 | 373 | 1994 |
Crystalline dioxin-linked covalent organic frameworks from irreversible reactions B Zhang, M Wei, H Mao, X Pei, SA Alshmimri, JA Reimer, OM Yaghi Journal of the American Chemical Society 140 (40), 12715-12719, 2018 | 345 | 2018 |
CO2 Dynamics in a Metal–Organic Framework with Open Metal Sites X Kong, E Scott, W Ding, JA Mason, JR Long, JA Reimer Journal of the American Chemical Society 134 (35), 14341-14344, 2012 | 339 | 2012 |
Cooperative carbon capture and steam regeneration with tetraamine-appended metal–organic frameworks EJ Kim, RL Siegelman, HZH Jiang, AC Forse, JH Lee, JD Martell, ... Science 369 (6502), 392-396, 2020 | 333 | 2020 |
Catalysis over molybdenum carbides and nitrides: II. Studies of CO hydrogenation and C2H6 hydrogenolysis GS Ranhotra, AT Bell, JA Reimer Journal of Catalysis 108 (1), 40-49, 1987 | 318 | 1987 |
Proton magnetic resonance spectra of plasma-deposited amorphous Si: H films JA Reimer, RW Vaughan, JC Knights Physical Review Letters 44 (3), 193, 1980 | 288 | 1980 |
Multiple-quantum NMR study of clustering in hydrogenated amorphous silicon J Baum, KK Gleason, A Pines, AN Garroway, JA Reimer Physical review letters 56 (13), 1377, 1986 | 261 | 1986 |
Introduction to carbon capture and sequestration B Smit, JA Reimer, CM Oldenburg, IC Bourg World Scientific, 2014 | 257 | 2014 |
An infrared study of NO decomposition over Cu-ZSM-5 AW Aylor, SC Larsen, JA Reimer, AT Bell Journal of Catalysis 157 (2), 592-602, 1995 | 254 | 1995 |
A Diaminopropane-Appended Metal–Organic Framework Enabling Efficient CO2 Capture from Coal Flue Gas via a Mixed Adsorption Mechanism PJ Milner, RL Siegelman, AC Forse, MI Gonzalez, T Runčevski, ... Journal of the American Chemical Society 139 (38), 13541-13553, 2017 | 245 | 2017 |