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| Atomically dispersed manganese catalysts for oxygen reduction in proton-exchange membrane fuel cells J Li, M Chen, DA Cullen, S Hwang, M Wang, B Li, K Liu, S Karakalos, ... Nature Catalysis 1 (12), 935-945, 2018 | 1051 | 2018 |
| Highly active atomically dispersed CoN 4 fuel cell cathode catalysts derived from surfactant-assisted MOFs: carbon-shell confinement strategy Y He, S Hwang, DA Cullen, MA Uddin, L Langhorst, B Li, S Karakalos, ... Energy & Environmental Science 12 (1), 250-260, 2019 | 661 | 2019 |
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| Unveiling Active Sites of CO2 Reduction on Nitrogen-Coordinated and Atomically Dispersed Iron and Cobalt Catalysts F Pan, H Zhang, K Liu, D Cullen, K More, M Wang, Z Feng, G Wang, G Wu, ... ACS Catalysis 8 (4), 3116-3122, 2018 | 422 | 2018 |
| Metal-organic framework-derived nitrogen-doped highly disordered carbon for electrochemical ammonia synthesis using N2 and H2O in alkaline electrolytes S Mukherjee, DA Cullen, S Karakalos, K Liu, H Zhang, S Zhao, H Xu, ... Nano Energy 48, 217-226, 2018 | 411 | 2018 |
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| Highly efficient decomposition of ammonia using high-entropy alloy catalysts P Xie, Y Yao, Z Huang, Z Liu, J Zhang, T Li, G Wang, ... Nature communications 10 (1), 4011, 2019 | 396 | 2019 |
| Unraveling oxygen reduction reaction mechanisms on carbon-supported Fe-phthalocyanine and Co-phthalocyanine catalysts in alkaline solutions R Chen, H Li, D Chu, G Wang The Journal of Physical Chemistry C 113 (48), 20689-20697, 2009 | 393 | 2009 |
| Thermally Driven Structure and Performance Evolution of Atomically Dispersed FeN4 Sites for Oxygen Reduction J Li, H Zhang, W Samarakoon, W Shan, DA Cullen, S Karakalos, M Chen, ... Angewandte Chemie International Edition 58 (52), 18971-18980, 2019 | 371 | 2019 |
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| A density functional theory study of oxygen reduction reaction on Me–N 4 (Me= Fe, Co, or Ni) clusters between graphitic pores S Kattel, G Wang Journal of Materials Chemistry A 1 (36), 10790-10797, 2013 | 277 | 2013 |
| Correlation Between Surface Chemistry and Electrocatalytic Properties of Monodisperse PtxNi1‐x Nanoparticles C Wang, M Chi, G Wang, D Van der Vliet, D Li, K More, HH Wang, ... Advanced Functional Materials 21 (1), 147-152, 2011 | 264 | 2011 |
| A first principles study of oxygen reduction reaction on a Pt (111) surface modified by a subsurface transition metal M (M= Ni, Co, or Fe) Z Duan, G Wang Physical Chemistry Chemical Physics 13 (45), 20178-20187, 2011 | 258 | 2011 |
| Single Cobalt Sites Dispersed in Hierarchically Porous Nanofiber Networks for Durable and High‐Power PGM‐Free Cathodes in Fuel Cells Y He, H Guo, S Hwang, X Yang, Z He, J Braaten, S Karakalos, W Shan, ... Advanced Materials 32 (46), 2003577, 2020 | 257 | 2020 |
| High‐Entropy Metal Sulfide Nanoparticles Promise High‐Performance Oxygen Evolution Reaction M Cui, C Yang, B Li, Q Dong, M Wu, S Hwang, H Xie, X Wang, G Wang, ... Advanced Energy Materials 11 (3), 2002887, 2021 | 235 | 2021 |
| 3D porous graphitic nanocarbon for enhancing the performance and durability of Pt catalysts: a balance between graphitization and hierarchical porosity Z Qiao, S Hwang, X Li, C Wang, W Samarakoon, S Karakalos, D Li, ... Energy & Environmental Science 12 (9), 2830-2841, 2019 | 223 | 2019 |
Gang WuProfessor of Chemical Engineering, University at Buffalo, SUNYVerified email at buffalo.edu
