Porous materials with optimal adsorption thermodynamics and kinetics for CO2 separation P Nugent, Y Belmabkhout, SD Burd, AJ Cairns, R Luebke, K Forrest, ... Nature 495 (7439), 80-84, 2013 | 2306 | 2013 |
Postsynthetically modified covalent organic frameworks for efficient and effective mercury removal Q Sun, B Aguila, J Perman, LD Earl, CW Abney, Y Cheng, H Wei, ... Journal of the American Chemical Society 139 (7), 2786-2793, 2017 | 947 | 2017 |
Enhanced CO2 Binding Affinity of a High-Uptake rht-Type Metal−Organic Framework Decorated with Acylamide Groups B Zheng, J Bai, J Duan, L Wojtas, MJ Zaworotko Journal of the American Chemical Society 133 (4), 748-751, 2011 | 757 | 2011 |
Supermolecular building blocks (SBBs) for the design and synthesis of highly porous metal-organic frameworks F Nouar, JF Eubank, T Bousquet, L Wojtas, MJ Zaworotko, M Eddaoudi Journal of the American Chemical Society 130 (6), 1833-1835, 2008 | 704 | 2008 |
Crystal Engineering of an nbo Topology Metal–Organic Framework for Chemical Fixation of CO2 under Ambient Conditions WY Gao, Y Chen, Y Niu, K Williams, L Cash, PJ Perez, L Wojtas, J Cai, ... Angewandte Chemie International Edition 53 (10), 2615-2619, 2014 | 566 | 2014 |
Tunable Rare-Earth fcu-MOFs: A Platform for Systematic Enhancement of CO2 Adsorption Energetics and Uptake DX Xue, AJ Cairns, Y Belmabkhout, L Wojtas, Y Liu, MH Alkordi, ... Journal of the American chemical society 135 (20), 7660-7667, 2013 | 560 | 2013 |
Covalent organic frameworks as a decorating platform for utilization and affinity enhancement of chelating sites for radionuclide sequestration Q Sun, B Aguila, LD Earl, CW Abney, L Wojtas, PK Thallapally, S Ma Advanced Materials 30 (20), 1705479, 2018 | 542 | 2018 |
Discovery and introduction of a (3, 18)-connected net as an ideal blueprint for the design of metal–organic frameworks V Guillerm, ŁJ Weseliński, Y Belmabkhout, AJ Cairns, V D'elia, Ł Wojtas, ... Nature chemistry 6 (8), 673-680, 2014 | 452 | 2014 |
Temperature and concentration control over interpenetration in a metal− organic material JJ Zhang, L Wojtas, RW Larsen, M Eddaoudi, MJ Zaworotko Journal of the American Chemical Society 131 (47), 17040-17041, 2009 | 420 | 2009 |
Cocrystals of quercetin with improved solubility and oral bioavailability AJ Smith, P Kavuru, L Wojtas, MJ Zaworotko, RD Shytle Molecular pharmaceutics 8 (5), 1867-1876, 2011 | 414 | 2011 |
Bio-inspired nano-traps for uranium extraction from seawater and recovery from nuclear waste Q Sun, B Aguila, J Perman, AS Ivanov, VS Bryantsev, LD Earl, CW Abney, ... Nature communications 9 (1), 1644, 2018 | 402 | 2018 |
Highly Selective Carbon Dioxide Uptake by [Cu(bpy-n)2(SiF6)] (bpy-1 = 4,4′-Bipyridine; bpy-2 = 1,2-Bis(4-pyridyl)ethene) SD Burd, S Ma, JA Perman, BJ Sikora, RQ Snurr, PK Thallapally, J Tian, ... Journal of the American Chemical Society 134 (8), 3663-3666, 2012 | 339 | 2012 |
Supermolecular building blocks (SBBs) and crystal design: 12-connected open frameworks based on a molecular cubohemioctahedron AJ Cairns, JA Perman, L Wojtas, VC Kravtsov, MH Alkordi, M Eddaoudi, ... Journal of the American Chemical Society 130 (5), 1560-1561, 2008 | 327 | 2008 |
Coformer selection in pharmaceutical cocrystal development: a case study of a meloxicam aspirin cocrystal that exhibits enhanced solubility and pharmacokinetics ML Cheney, DR Weyna, N Shan, M Hanna, L Wojtas, MJ Zaworotko Journal of pharmaceutical sciences 100 (6), 2172-2181, 2011 | 286 | 2011 |
Effects of crystal form on solubility and pharmacokinetics: a crystal engineering case study of lamotrigine ML Cheney, N Shan, ER Healey, M Hanna, L Wojtas, MJ Zaworotko, ... Crystal Growth & Design 10 (1), 394-405, 2010 | 284 | 2010 |
Templated synthesis, postsynthetic metal exchange, and properties of a porphyrin-encapsulating metal–organic material Z Zhang, L Zhang, L Wojtas, P Nugent, M Eddaoudi, MJ Zaworotko Journal of the American Chemical Society 134 (2), 924-927, 2012 | 276 | 2012 |
Structure− stability relationships in cocrystal hydrates: Does the promiscuity of water make crystalline hydrates the nemesis of crystal engineering? HD Clarke, KK Arora, H Bass, P Kavuru, TT Ong, T Pujari, L Wojtas, ... Crystal Growth & Design 10 (5), 2152-2167, 2010 | 263 | 2010 |
Experimental evidence for cobalt (III)-carbene radicals: key intermediates in cobalt (II)-based metalloradical cyclopropanation H Lu, WI Dzik, X Xu, L Wojtas, B de Bruin, XP Zhang Journal of the American Chemical Society 133 (22), 8518-8521, 2011 | 259 | 2011 |
A Robust Molecular Porous Material with High CO2 Uptake and Selectivity PS Nugent, VL Rhodus, T Pham, K Forrest, L Wojtas, B Space, ... Journal of the American Chemical Society 135 (30), 10950-10953, 2013 | 245 | 2013 |
Selective Intramolecular C H Amination through the Metalloradical Activation of Azides: Synthesis of 1, 3‐Diamines under Neutral and Nonoxidative Conditions H Lu, H Jiang, L Wojtas, XP Zhang Angewandte Chemie 52 (122), 10390-10394, 2010 | 230 | 2010 |