| General Techno-Economic Analysis of CO2 Electrolysis Systems M Jouny, W Luc, F Jiao Industrial & Engineering Chemistry Research 57 (6), 2165-2177, 2018 | 1151 | 2018 |
| Ag–Sn Bimetallic Catalyst with a Core–Shell Structure for CO2 Reduction W Luc, C Collins, S Wang, H Xin, K He, Y Kang, F Jiao Journal of the American chemical society 139 (5), 1885-1893, 2017 | 513 | 2017 |
| High-rate electroreduction of carbon monoxide to multi-carbon products M Jouny, W Luc, F Jiao Nature Catalysis 1 (10), 748-755, 2018 | 452 | 2018 |
| A highly porous copper electrocatalyst for carbon dioxide reduction JJ Lv, M Jouny, W Luc, W Zhu, JJ Zhu, F Jiao Advanced Materials 30 (49), 1803111, 2018 | 422 | 2018 |
| Two-dimensional copper nanosheets for electrochemical reduction of carbon monoxide to acetate W Luc, X Fu, J Shi, JJ Lv, M Jouny, BH Ko, Y Xu, Q Tu, X Hu, J Wu, Q Yue, ... Nature Catalysis 2 (5), 423-430, 2019 | 416 | 2019 |
| Understanding Surface-Mediated Electrochemical Reactions: CO2 Reduction and Beyond M Dunwell, W Luc, Y Yan, F Jiao, B Xu Acs Catalysis 8 (9), 8121-8129, 2018 | 207 | 2018 |
| Overcoming immiscibility toward bimetallic catalyst library C Yang, BH Ko, S Hwang, Z Liu, Y Yao, W Luc, M Cui, AS Malkani, T Li, ... Science advances 6 (17), eaaz6844, 2020 | 125 | 2020 |
| SO2-induced Selectivity Change in CO2 Electroreduction W Luc, BH Ko, S Kattel, S Li, D Su, JG Chen, F Jiao Journal of the American Chemical Society, 2019 | 123 | 2019 |
| Ordered mesoporous metal carbides with enhanced anisole hydrodeoxygenation selectivity Q Lu, CJ Chen, W Luc, JG Chen, A Bhan, F Jiao ACS Catalysis 6 (6), 3506-3514, 2016 | 109 | 2016 |
| Nanoporous metals as electrocatalysts: state-of-the-art, opportunities, and challenges W Luc, F Jiao ACS Catalysis 7 (9), 5856-5861, 2017 | 103 | 2017 |
| Synthesis of nanoporous metals, oxides, carbides, and sulfides: beyond nanocasting W Luc, F Jiao Accounts of chemical research 49 (7), 1351-1358, 2016 | 82 | 2016 |
| An Ir-based anode for a practical CO2 electrolyzer W Luc, J Rosen, F Jiao Catalysis Today 288, 79-84, 2017 | 67 | 2017 |
| Role of surface oxophilicity in copper-catalyzed water dissociation W Luc, Z Jiang, JG Chen, F Jiao ACS Catalysis 8 (10), 9327-9333, 2018 | 44 | 2018 |
| Nanoporous Cu–Al–Co alloys for selective furfural hydrodeoxygenation to 2-methylfuran GS Hutchings, W Luc, Q Lu, Y Zhou, DG Vlachos, F Jiao Industrial & Engineering Chemistry Research 56 (14), 3866-3872, 2017 | 41 | 2017 |
| Toward a Practical Solar-Driven CO2 Flow Cell Electrolyzer: Design and Optimization GM Sriramagiri, N Ahmed, W Luc, KD Dobson, SS Hegedus, F Jiao ACS Sustainable Chemistry & Engineering 5 (11), 10959-10966, 2017 | 37 | 2017 |
| Photoelectrochemical carbon dioxide reduction using a nanoporous Ag cathode Y Zhang, W Luc, GS Hutchings, F Jiao ACS applied materials & interfaces 8 (37), 24652-24658, 2016 | 26 | 2016 |
| Carbon dioxide splitting using an electro-thermochemical hybrid looping strategy W Luc, M Jouny, J Rosen, F Jiao Energy & Environmental Science 11 (10), 2928-2934, 2018 | 25 | 2018 |
| Computation and assessment of solar electrolyzer field performance: Comparing coupling strategies GM Sriramagiri, W Luc, F Jiao, K Ayers, KD Dobson, SS Hegedus Sustainable Energy & Fuels 3 (2), 422-430, 2019 | 20 | 2019 |
| Status of the solar sulfur ammonia thermochemical hydrogen production system for splitting water R Taylor, R Davenport, J Talbot, R Herz, W Luc, D Genders, P Symons, ... Energy Procedia 49, 2047-2058, 2014 | 14 | 2014 |
| Correction to “General Techno-Economic Analysis of CO2 Electrolysis Systems” M Jouny, W Luc, F Jiao Industrial & Engineering Chemistry Research 59 (16), 8121-8123, 2020 | 12 | 2020 |
Matthew JounyUniversity of DelawareDirección de correo verificada de udel.edu
