| Photoelectrocatalytic water splitting: significance of cocatalysts, electrolyte, and interfaces C Ding, J Shi, Z Wang, C Li ACS catalysis 7 (1), 675-688, 2017 | 592 | 2017 |
| A tantalum nitride photoanode modified with a hole‐storage layer for highly stable solar water splitting G Liu, J Shi, F Zhang, Z Chen, J Han, C Ding, S Chen, Z Wang, H Han, ... Angewandte Chemie International Edition 53 (28), 7295-7299, 2014 | 418 | 2014 |
| Water oxidation catalysts for artificial photosynthesis S Ye, C Ding, M Liu, A Wang, Q Huang, C Li Advanced Materials 31 (50), 1902069, 2019 | 308 | 2019 |
| Mimicking the key functions of photosystem II in artificial photosynthesis for photoelectrocatalytic water splitting S Ye, C Ding, R Chen, F Fan, P Fu, H Yin, X Wang, Z Wang, P Du, C Li Journal of the American Chemical Society 140 (9), 3250-3256, 2018 | 280 | 2018 |
| A hydrogen farm strategy for scalable solar hydrogen production with particulate photocatalysts Y Zhao, C Ding, J Zhu, W Qin, X Tao, F Fan, R Li, C Li Angewandte Chemie International Edition 59 (24), 9653-9658, 2020 | 250 | 2020 |
| Visible light driven overall water splitting using cocatalyst/BiVO 4 photoanode with minimized bias C Ding, J Shi, D Wang, Z Wang, N Wang, G Liu, F Xiong, C Li Physical Chemistry Chemical Physics 15 (13), 4589-4595, 2013 | 239 | 2013 |
| Incorporating transition‐metal phosphides into metal‐organic frameworks for enhanced photocatalysis K Sun, M Liu, J Pei, D Li, C Ding, K Wu, HL Jiang Angewandte Chemie 132 (50), 22937-22943, 2020 | 228 | 2020 |
| Interfacial microenvironment modulation boosting electron transfer between metal nanoparticles and MOFs for enhanced photocatalysis M Xu, D Li, K Sun, L Jiao, C Xie, C Ding, HL Jiang Angewandte Chemie 133 (30), 16508-16512, 2021 | 213 | 2021 |
| Synergetic Effect of Conjugated Ni(OH)2/IrO2 Cocatalyst on Titanium-Doped Hematite Photoanode for Solar Water Splitting Z Wang, G Liu, C Ding, Z Chen, F Zhang, J Shi, C Li The Journal of Physical Chemistry C 119 (34), 19607-19612, 2015 | 190 | 2015 |
| Charge separation by creating band bending in metal–organic frameworks for improved photocatalytic hydrogen evolution C Zhang, C Xie, Y Gao, X Tao, C Ding, F Fan, HL Jiang Angewandte Chemie 134 (28), e202204108, 2022 | 184 | 2022 |
| Crystallographic-Orientation-Dependent Charge Separation of BiVO4 for Solar Water Oxidation D Li, Y Liu, W Shi, C Shao, S Wang, C Ding, T Liu, F Fan, J Shi, C Li ACS Energy Letters 4 (4), 825-831, 2019 | 159 | 2019 |
| Precise fabrication of single-atom alloy co-catalyst with optimal charge state for enhanced photocatalysis Y Pan, Y Qian, X Zheng, SQ Chu, Y Yang, C Ding, X Wang, SH Yu, ... National science review 8 (1), nwaa224, 2021 | 158 | 2021 |
| Integrating a dual-silicon photoelectrochemical cell into a redox flow battery for unassisted photocharging S Liao, X Zong, B Seger, T Pedersen, T Yao, C Ding, J Shi, J Chen, C Li Nature communications 7 (1), 11474, 2016 | 155 | 2016 |
| Amorphous multi-elements electrocatalysts with tunable bifunctionality toward overall water splitting X Wang, W Ma, C Ding, Z Xu, H Wang, X Zong, C Li ACS Catalysis 8 (11), 9926-9935, 2018 | 148 | 2018 |
| Enhancement of visible-light-driven O2 evolution from water oxidation on WO3 treated with hydrogen G Liu, J Han, X Zhou, L Huang, F Zhang, X Wang, C Ding, X Zheng, ... Journal of catalysis 307, 148-152, 2013 | 128 | 2013 |
| Solar-to-hydrogen efficiency exceeding 2.5% achieved for overall water splitting with an all earth-abundant dual-photoelectrode C Ding, W Qin, N Wang, G Liu, Z Wang, P Yan, J Shi, C Li Physical Chemistry Chemical Physics 16 (29), 15608-15614, 2014 | 124 | 2014 |
| Nitrogen-doped layered oxide Sr 5 Ta 4 O 15− x N x for water reduction and oxidation under visible light irradiation S Chen, J Yang, C Ding, R Li, S Jin, D Wang, H Han, F Zhang, C Li Journal of Materials Chemistry A 1 (18), 5651-5659, 2013 | 100 | 2013 |
| Boosting electrocatalytic nitrate reduction to ammonia via promoting water dissociation Y Zhou, R Duan, H Li, M Zhao, C Ding, C Li ACS Catalysis 13 (16), 10846-10854, 2023 | 91 | 2023 |
| Photoelectrochemical water splitting promoted with a disordered surface layer created by electrochemical reduction P Yan, G Liu, C Ding, H Han, J Shi, Y Gan, C Li ACS Applied Materials & Interfaces 7 (6), 3791-3796, 2015 | 89 | 2015 |
| Carbon nitride embedded with transition metals for selective electrocatalytic CO2 reduction C Ding, C Feng, Y Mei, F Liu, H Wang, M Dupuis, C Li Applied Catalysis B: Environmental 268, 118391, 2020 | 81 | 2020 |