| Greatly Improving Electrochemical N2 Reduction over TiO2 Nanoparticles by Iron Doping T Wu, X Zhu, Z Xing, S Mou, C Li, Y Qiao, Q Liu, Y Luo, X Shi, Y Zhang, ... Angewandte Chemie International Edition 58 (51), 18449-18453, 2019 | 435 | 2019 |
| Activity trends and mechanisms in peroxymonosulfate‐assisted catalytic production of singlet oxygen over atomic metal‐N‐C catalysts Y Gao, T Wu, C Yang, C Ma, Z Zhao, Z Wu, S Cao, W Geng, Y Wang, ... Angewandte Chemie International Edition 60 (41), 22513-22521, 2021 | 341 | 2021 |
| Identifying the Origin of Ti3+ Activity toward Enhanced Electrocatalytic N2 Reduction over TiO2 Nanoparticles Modulated by Mixed‐Valent Copper T Wu, H Zhao, X Zhu, Z Xing, Q Liu, T Liu, S Gao, S Lu, G Chen, AM Asiri, ... Advanced Materials 32 (30), 2000299, 2020 | 337 | 2020 |
| Boron Nanosheet: An Elemental Two-Dimensional (2D) Material for Ambient Electrocatalytic N2-to-NH3 Fixation in Neutral Media X Zhang, T Wu, H Wang, R Zhao, H Chen, T Wang, P Wei, Y Luo, Y Zhang, ... Acs Catalysis 9 (5), 4609-4615, 2019 | 292 | 2019 |
| Boron Phosphide Nanoparticles: A Nonmetal Catalyst for High‐Selectivity Electrochemical Reduction of CO2 to CH3OH S Mou, T Wu, J Xie, Y Zhang, L Ji, H Huang, T Wang, Y Luo, X Xiong, ... Advanced Materials 31 (36), 1903499, 2019 | 228 | 2019 |
| Highly Selective Electrochemical Reduction of CO2 to Alcohols on an FeP Nanoarray L Ji, L Li, X Ji, Y Zhang, S Mou, T Wu, Q Liu, B Li, X Zhu, Y Luo, X Shi, ... Angewandte Chemie 132 (2), 768-772, 2020 | 200 | 2020 |
| Greatly Enhanced Electrocatalytic N2 Reduction on TiO2 via V Doping T Wu, W Kong, Y Zhang, Z Xing, J Zhao, T Wang, X Shi, Y Luo, X Sun Small methods 3 (11), 1900356, 2019 | 178 | 2019 |
| Insights into defective TiO 2 in electrocatalytic N 2 reduction: combining theoretical and experimental studies L Yang, T Wu, R Zhang, H Zhou, L Xia, X Shi, H Zheng, Y Zhang, X Sun Nanoscale 11 (4), 1555-1562, 2019 | 142 | 2019 |
| Coadsorption of NRR and HER Intermediates Determines the Performance of Ru-N4 toward Electrocatalytic N2 Reduction T Wu, MM Melander, K Honkala ACS Catalysis 12 (4), 2505-2512, 2022 | 132 | 2022 |
| Ambient electrohydrogenation of N 2 for NH 3 synthesis on non-metal boron phosphide nanoparticles: the critical role of P in boosting the catalytic activity X Zhu, T Wu, L Ji, C Li, T Wang, S Wen, S Gao, X Shi, Y Luo, Q Peng, ... Journal of Materials Chemistry A 7 (27), 16117-16121, 2019 | 106 | 2019 |
| P-Doped graphene toward enhanced electrocatalytic N 2 reduction T Wu, X Li, X Zhu, S Mou, Y Luo, X Shi, AM Asiri, Y Zhang, B Zheng, ... Chemical communications 56 (12), 1831-1834, 2020 | 82 | 2020 |
| Greatly Enhanced Electrocatalytic N2 Reduction over V2O3/C by P Doping X Cheng, J Wang, W Xiong, T Wang, T Wu, S Lu, G Chen, S Gao, X Shi, ... ChemNanoMat 6 (9), 1315-1319, 2020 | 70 | 2020 |
| Modulating Oxygen Vacancies of TiO2 Nanospheres by Mn-Doping to Boost Electrocatalytic N2 Reduction H Chen, T Wu, X Li, S Lu, F Zhang, Y Wang, H Zhao, Q Liu, Y Luo, ... ACS Sustainable Chemistry & Engineering 9 (4), 1512-1517, 2021 | 56 | 2021 |
| Hollow Bi2MoO6 Sphere Effectively Catalyzes the Ambient Electroreduction of N2 to NH3 Z Xing, W Kong, T Wu, H Xie, T Wang, Y Luo, X Shi, AM Asiri, Y Zhang, ... ACS Sustainable Chemistry & Engineering 7 (15), 12692-12696, 2019 | 54 | 2019 |
| FeOOH quantum dots decorated graphene sheet: An efficient electrocatalyst for ambient N2 reduction X Zhu, J Zhao, L Ji, T Wu, T Wang, S Gao, AA Alshehri, KA Alzahrani, ... Nano Research 13, 209-214, 2020 | 52 | 2020 |
| Ambient electrocatalytic N 2 reduction to NH 3 by metal fluorides P Li, Z Liu, T Wu, Y Zhang, L Wang, L Wang, L Ji, Y Zhang, Y Luo, T Wang, ... Journal of Materials Chemistry A 7 (30), 17761-17765, 2019 | 44 | 2019 |
| Unusual electrochemical N 2 reduction activity in an earth-abundant iron catalyst via phosphorous modulation X Zhu, T Wu, L Ji, Q Liu, Y Luo, G Cui, Y Xiang, Y Zhang, B Zheng, X Sun Chemical Communications 56 (5), 731-734, 2020 | 35 | 2020 |
| Constant inner potential DFT for modelling electrochemical systems under constant potential and bias MM Melander, T Wu, T Weckman, K Honkala npj Computational Materials 10 (1), 5, 2024 | 33 | 2024 |
| Aqueous alternating electrolysis prolongs electrode lifespans under harsh operation conditions J Liang, J Li, H Dong, Z Li, X He, Y Wang, Y Yao, Y Ren, S Sun, Y Luo, ... Nature Communications 15 (1), 6208, 2024 | 31 | 2024 |
| Nanowire quantum dot surface engineering for high temperature single photon emission P Yu, Z Li, T Wu, YT Wang, X Tong, CF Li, Z Wang, SH Wei, Y Zhang, ... ACS nano 13 (11), 13492-13500, 2019 | 29 | 2019 |