Three-dimensional NiFe layered double hydroxide film for high-efficiency oxygen evolution reaction Z Lu, W Xu, W Zhu, Q Yang, X Lei, J Liu, Y Li, X Sun, X Duan Chemical communications 50 (49), 6479-6482, 2014 | 866 | 2014 |
Nitrogen-doped tungsten carbide nanoarray as an efficient bifunctional electrocatalyst for water splitting in acid N Han, KR Yang, Z Lu, Y Li, W Xu, T Gao, Z Cai, Y Zhang, VS Batista, ... Nature communications 9 (1), 924, 2018 | 693 | 2018 |
Superwetting electrodes for gas-involving electrocatalysis W Xu, Z Lu, X Sun, L Jiang, X Duan Accounts of Chemical Research 51 (7), 1590-1598, 2018 | 445 | 2018 |
Superaerophobic electrodes for direct hydrazine fuel cells Z Lu, M Sun, T Xu, Y Li, W Xu, Z Chang, Y Ding, X Sun, L Jiang Advanced materials 27 (14), 2361-2366, 2015 | 249 | 2015 |
Superaerophilic carbon-nanotube-array electrode for high-performance oxygen reduction reaction Z Lu, W Xu, J Ma, Y Li, X Sun, L Jiang Adv. Mater 28 (33), 7155-7161, 2016 | 246 | 2016 |
The critical role of additive sulfate for stable alkaline seawater oxidation on nickel‐based electrodes T Ma, W Xu, B Li, X Chen, J Zhao, S Wan, K Jiang, S Zhang, Z Wang, ... Angewandte Chemie 133 (42), 22922-22926, 2021 | 137 | 2021 |
A 3D nanoporous Ni–Mo electrocatalyst with negligible overpotential for alkaline hydrogen evolution Y Wang, G Zhang, W Xu, P Wan, Z Lu, Y Li, X Sun ChemElectroChem 1 (7), 1138-1144, 2014 | 137 | 2014 |
Atomically dispersed Lewis acid sites boost 2-electron oxygen reduction activity of carbon-based catalysts Q Yang, W Xu, S Gong, G Zheng, Z Tian, Y Wen, L Peng, L Zhang, Z Lu, ... Nature communications 11 (1), 5478, 2020 | 129 | 2020 |
High‐performance water electrolysis system with double nanostructured superaerophobic electrodes W Xu, Z Lu, P Wan, Y Kuang, X Sun Small 12 (18), 2492-2498, 2016 | 128 | 2016 |
Recent advances in non‐precious metal‐based electrodes for alkaline water electrolysis D Zhou, P Li, W Xu, S Jawaid, J Mohammed‐Ibrahim, W Liu, Y Kuang, ... ChemNanoMat 6 (3), 336-355, 2020 | 104 | 2020 |
Selectivity regulation of CO2 electroreduction through contact interface engineering on superwetting Cu nanoarray electrodes Z Cai, Y Zhang, Y Zhao, Y Wu, W Xu, X Wen, Y Zhong, Y Zhang, W Liu, ... Nano Research 12, 345-349, 2019 | 92 | 2019 |
Unlocking Bifunctional Electrocatalytic Activity for CO2 Reduction Reaction by Win-Win Metal–Oxide Cooperation Z Cai, Y Wu, Z Wu, L Yin, Z Weng, Y Zhong, W Xu, X Sun, H Wang ACS Energy Letters 3 (11), 2816-2822, 2018 | 75 | 2018 |
A hierarchical Ni–Co–O@ Ni–Co–S nanoarray as an advanced oxygen evolution reaction electrode W Xu, Z Lu, X Lei, Y Li, X Sun Physical Chemistry Chemical Physics 16 (38), 20402-20405, 2014 | 63 | 2014 |
Electrochemical oxygen reduction to hydrogen peroxide via a two‐electron transfer pathway on carbon‐based single‐atom catalysts K Sun, W Xu, X Lin, S Tian, WF Lin, D Zhou, X Sun Advanced Materials Interfaces 8 (8), 2001360, 2021 | 49 | 2021 |
Common-ion effect triggered highly sustained seawater electrolysis with additional NaCl production P Li, S Wang, IA Samo, X Zhang, Z Wang, C Wang, Y Li, Y Du, Y Zhong, ... Research, 2020 | 48 | 2020 |
Enhanced interface interaction in Cu2S@ Ni core-shell nanorod arrays as hydrogen evolution reaction electrode for alkaline seawater electrolysis B Zhang, W Xu, S Liu, X Chen, T Ma, G Wang, Z Lu, J Sun Journal of Power Sources 506, 230235, 2021 | 42 | 2021 |
Boosting oxygen reaction activity by coupling sulfides for high-performance rechargeable metal–air battery D Zhou, Y Jia, H Yang, W Xu, K Sun, J Zhang, S Wang, Y Kuang, B Liu, ... Journal of Materials Chemistry A 6 (42), 21162-21166, 2018 | 41 | 2018 |
Superaerophilic copper nanowires for efficient and switchable CO 2 electroreduction Y Zhang, Z Cai, Y Zhao, X Wen, W Xu, Y Zhong, L Bai, W Liu, Y Zhang, ... Nanoscale Horizons 4 (2), 490-494, 2019 | 40 | 2019 |
Dehydrated layered double hydroxides: Alcohothermal synthesis and oxygen evolution activity Z Lu, L Qian, W Xu, Y Tian, M Jiang, Y Li, X Sun, X Duan Nano Research 9, 3152-3161, 2016 | 35 | 2016 |
Recent progress on carbonaceous material engineering for electrochemical hydrogen peroxide generation B Zhang, W Xu, Z Lu, J Sun Transactions of Tianjin University 26, 188-196, 2020 | 31 | 2020 |