| Atomically dispersed Fe–Co dual metal sites as bifunctional oxygen electrocatalysts for rechargeable and flexible Zn–air batteries Y He, X Yang, Y Li, L Liu, S Guo, C Shu, F Liu, Y Liu, Q Tan, G Wu ACS catalysis 12 (2), 1216-1227, 2022 | 353 | 2022 |
| 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 | 339 | 2020 |
| Rationally designing efficient electrocatalysts for direct seawater splitting: challenges, achievements, and promises J Liu, S Duan, H Shi, T Wang, X Yang, Y Huang, G Wu, Q Li Angewandte Chemie 134 (45), e202210753, 2022 | 193 | 2022 |
| Atomically Dispersed Dual‐Metal Site Catalysts for Enhanced CO2 Reduction: Mechanistic Insight into Active Site Structures Y Li, W Shan, MJ Zachman, M Wang, S Hwang, H Tabassum, J Yang, ... Angewandte Chemie 134 (28), e202205632, 2022 | 183 | 2022 |
| Atomically Dispersed Single Ni Site Catalysts for Nitrogen Reduction toward Electrochemical Ammonia Synthesis Using N2 and H2O S Mukherjee, X Yang, W Shan, W Samarakoon, S Karakalos, DA Cullen, ... Small Methods 4 (6), 1900821, 2020 | 183 | 2020 |
| Chemical vapor deposition for atomically dispersed and nitrogen coordinated single metal site catalysts S Liu, M Wang, X Yang, Q Shi, Z Qiao, M Lucero, Q Ma, KL More, ... Angewandte Chemie International Edition 59 (48), 21698-21705, 2020 | 170 | 2020 |
| Tuning Two‐Electron Oxygen‐Reduction Pathways for H2O2 Electrosynthesis via Engineering Atomically Dispersed Single Metal Site Catalysts X Yang, Y Zeng, W Alnoush, Y Hou, D Higgins, G Wu Advanced Materials 34 (23), 2107954, 2022 | 164 | 2022 |
| Promoting Atomically Dispersed MnN4 Sites via Sulfur Doping for Oxygen Reduction: Unveiling Intrinsic Activity and Degradation in Fuel Cells L Guo, S Hwang, B Li, F Yang, M Wang, M Chen, X Yang, SG Karakalos, ... ACS nano 15 (4), 6886-6899, 2021 | 162 | 2021 |
| Chemical vapor deposition for N/S-doped single Fe site catalysts for the oxygen reduction in direct methanol fuel cells X Li, X Yang, L Liu, H Zhao, Y Li, H Zhu, Y Chen, S Guo, Y Liu, Q Tan, ... Acs Catalysis 11 (12), 7450-7459, 2021 | 151 | 2021 |
| Nitrogen-doped porous carbon: highly efficient trifunctional electrocatalyst for oxygen reversible catalysis and nitrogen reduction reaction X Yang, K Li, D Cheng, WL Pang, J Lv, X Chen, HY Zang, XL Wu, HQ Tan, ... Journal of Materials Chemistry A 6 (17), 7762-7769, 2018 | 137 | 2018 |
| Amorphous Ni (Ⅲ)-based sulfides as bifunctional water and urea oxidation anode electrocatalysts for hydrogen generation from urea-containing water X Jia, H Kang, X Yang, Y Li, K Cui, X Wu, W Qin, G Wu Applied Catalysis B: Environmental 312, 121389, 2022 | 134 | 2022 |
| Atomically dispersed zinc (I) active sites to accelerate nitrogen reduction kinetics for ammonia electrosynthesis Y Kong, Y Li, X Sang, B Yang, Z Li, S Zheng, Q Zhang, S Yao, X Yang, ... Advanced materials 34 (2), 2103548, 2022 | 128 | 2022 |
| Carbon‐Supported Single Metal Site Catalysts for Electrochemical CO2 Reduction to CO and Beyond Y Zhu, X Yang, C Peng, C Priest, Y Mei, G Wu Small 17 (16), 2005148, 2021 | 123 | 2021 |
| Single-iron site catalysts with self-assembled dual-size architecture and hierarchical porosity for proton-exchange membrane fuel cells X Zhao, X Yang, M Wang, S Hwang, S Karakalos, M Chen, Z Qiao, ... Applied Catalysis B: Environmental 279, 119400, 2020 | 113 | 2020 |
| Hydrogen generation via ammonia decomposition on highly efficient and stable Ru-free catalysts: approaching complete conversion at 450° C H Tabassum, S Mukherjee, J Chen, D Holiharimanana, S Karakalos, ... Energy & Environmental Science 15 (10), 4190-4200, 2022 | 98 | 2022 |
| Recent advances in designing efficient electrocatalysts for electrochemical nitrate reduction to ammonia X Liang, H Zhu, X Yang, S Xue, Z Liang, X Ren, A Liu, G Wu Small Structures 4 (6), 2200202, 2023 | 87 | 2023 |
| Magnetic field assisted electrocatalytic oxygen evolution reaction of nickel-based materials Y Zhang, P Guo, S Li, J Sun, W Wang, B Song, X Yang, X Wang, Z Jiang, ... Journal of Materials Chemistry A 10 (4), 1760-1767, 2022 | 87 | 2022 |
| Achievements, challenges, and perspectives on nitrogen electrochemistry for carbon‐neutral energy technologies X Yang, S Mukherjee, T O'Carroll, Y Hou, MR Singh, JA Gauthier, G Wu Angewandte Chemie International Edition 62 (10), e202215938, 2023 | 81 | 2023 |
| Carbon Catalysts for Electrochemical CO2 Reduction toward Multicarbon Products F Pan, X Yang, T O'Carroll, H Li, KJ Chen, G Wu Advanced Energy Materials 12 (24), 2200586, 2022 | 77 | 2022 |
| Promoting ZIF-8-derived Fe–N–C oxygen reduction catalysts via Zr doping in proton exchange membrane fuel cells: durability and activity enhancements B Chi, L Zhang, X Yang, Y Zeng, Y Deng, M Liu, J Huo, C Li, X Zhang, ... ACS catalysis 13 (7), 4221-4230, 2023 | 74 | 2023 |