Monolithic solid–electrolyte interphases formed in fluorinated orthoformate-based electrolytes minimize Li depletion and pulverization X Cao, X Ren, L Zou, MH Engelhard, W Huang, H Wang, BE Matthews, ... Nature Energy 4 (9), 796-805, 2019 | 654 | 2019 |
Enabling high-voltage lithium-metal batteries under practical conditions X Ren, L Zou, X Cao, MH Engelhard, W Liu, SD Burton, H Lee, C Niu, ... Joule 3 (7), 1662-1676, 2019 | 635 | 2019 |
Harvesting energy from the natural vibration of human walking W Yang, J Chen, G Zhu, J Yang, P Bai, Y Su, Q Jing, X Cao, ZL Wang ACS nano 7 (12), 11317-11324, 2013 | 521 | 2013 |
Liquid‐metal electrode for high‐performance triboelectric nanogenerator at an instantaneous energy conversion efficiency of 70.6% W Tang, T Jiang, FR Fan, AF Yu, C Zhang, X Cao, ZL Wang Advanced Functional Materials 25 (24), 3718-3725, 2015 | 479 | 2015 |
Triboelectric nanogenerators driven self‐powered electrochemical processes for energy and environmental science X Cao, Y Jie, N Wang, ZL Wang Advanced Energy Materials 6 (23), 1600665, 2016 | 466 | 2016 |
Lithium metal anodes with nonaqueous electrolytes JG Zhang, W Xu, J Xiao, X Cao, J Liu Chemical reviews 120 (24), 13312-13348, 2020 | 406 | 2020 |
Localized high-concentration electrolytes for lithium batteries X Cao, H Jia, W Xu, JG Zhang Journal of The Electrochemical Society 168 (1), 010522, 2021 | 314 | 2021 |
Balancing interfacial reactions to achieve long cycle life in high-energy lithium metal batteries C Niu, D Liu, JA Lochala, CS Anderson, X Cao, ME Gross, W Xu, ... Nature Energy 6 (7), 723-732, 2021 | 304 | 2021 |
Multifunctional TENG for blue energy scavenging and self‐powered wind‐speed sensor Y Xi, H Guo, Y Zi, X Li, J Wang, J Deng, S Li, C Hu, X Cao, ZL Wang Advanced Energy Materials 7 (12), 1602397, 2017 | 294 | 2017 |
Natural leaf made triboelectric nanogenerator for harvesting environmental mechanical energy Y Jie, X Jia, J Zou, Y Chen, N Wang, ZL Wang, X Cao Advanced Energy Materials 8 (12), 1703133, 2018 | 266 | 2018 |
Self-powered cleaning of air pollution by wind driven triboelectric nanogenerator S Chen, C Gao, W Tang, H Zhu, Y Han, Q Jiang, T Li, X Cao, Z Wang Nano Energy 14, 217-225, 2015 | 230 | 2015 |
Triboelectrification-enabled self-powered detection and removal of heavy metal ions in wastewater Z Li, J Chen, H Guo, X Fan, Z Wen, MH Yeh, C Yu, X Cao, ZL Wang Adv. Mater 28 (15), 2983-2991, 2016 | 225 | 2016 |
An ultrathin flexible single‐electrode triboelectric‐nanogenerator for mechanical energy harvesting and instantaneous force sensing SW Chen, X Cao, N Wang, L Ma, HR Zhu, M Willander, Y Jie, ZL Wang Advanced Energy Materials 7 (1), 1601255, 2017 | 220 | 2017 |
Selective recovery of precious metals through photocatalysis Y Chen, M Xu, J Wen, Y Wan, Q Zhao, X Cao, Y Ding, ZL Wang, H Li, ... Nature Sustainability 4 (7), 618-626, 2021 | 218 | 2021 |
A novel non-enzymatic glucose sensor modified with Fe2O3 nanowire arrays X Cao, N Wang Analyst 136 (20), 4241-4246, 2011 | 209 | 2011 |
Advanced electrolytes for fast‐charging high‐voltage lithium‐ion batteries in wide‐temperature range X Zhang, L Zou, Y Xu, X Cao, MH Engelhard, BE Matthews, L Zhong, ... Advanced Energy Materials 10 (22), 2000368, 2020 | 207 | 2020 |
Self-powered water splitting using flowing kinetic energy W Tang, Y Han, CB Han, CZ Gao, X Cao, ZL Wang Adv. Mater 27 (2), 272-276, 2015 | 207 | 2015 |
High‐performance silicon anodes enabled by nonflammable localized high‐concentration electrolytes H Jia, L Zou, P Gao, X Cao, W Zhao, Y He, MH Engelhard, SD Burton, ... Advanced Energy Materials 9 (31), 1900784, 2019 | 198 | 2019 |
Detection of glucose based on bimetallic PtCu nanochains modified electrodes X Cao, N Wang, S Jia, Y Shao Analytical chemistry 85 (10), 5040-5046, 2013 | 198 | 2013 |
Identification of LiH and nanocrystalline LiF in the solid–electrolyte interphase of lithium metal anodes Z Shadike, H Lee, O Borodin, X Cao, X Fan, X Wang, R Lin, SM Bak, ... Nature nanotechnology 16 (5), 549-554, 2021 | 195 | 2021 |