| “Water-in-salt” electrolyte enables high-voltage aqueous lithium-ion chemistries L Suo, O Borodin, T Gao, M Olguin, J Ho, X Fan, C Luo, C Wang, K Xu Science 350 (6263), 938-943, 2015 | 3203 | 2015 |
| Highly reversible zinc metal anode for aqueous batteries F Wang, O Borodin, T Gao, X Fan, W Sun, F Han, A Faraone, JA Dura, ... Nature materials 17 (6), 543-549, 2018 | 2470 | 2018 |
| Zn/MnO2 Battery Chemistry With H+ and Zn2+ Coinsertion W Sun, F Wang, S Hou, C Yang, X Fan, Z Ma, T Gao, F Han, R Hu, M Zhu, ... Journal of the American Chemical Society 139 (29), 9775-9778, 2017 | 1623 | 2017 |
| High electronic conductivity as the origin of lithium dendrite formation within solid electrolytes F Han, AS Westover, J Yue, X Fan, F Wang, M Chi, DN Leonard, ... Nature Energy 4 (3), 187-196, 2019 | 1424 | 2019 |
| Non-flammable electrolyte enables Li-metal batteries with aggressive cathode chemistries X Fan, L Chen, O Borodin, X Ji, J Chen, S Hou, T Deng, J Zheng, C Yang, ... Nature nanotechnology 13 (8), 715-722, 2018 | 1182 | 2018 |
| Highly fluorinated interphases enable high-voltage Li-metal batteries X Fan, L Chen, X Ji, T Deng, S Hou, J Chen, J Zheng, F Wang, J Jiang, ... Chem 4 (1), 174-185, 2018 | 812 | 2018 |
| Electrolyte design for LiF-rich solid–electrolyte interfaces to enable high-performance microsized alloy anodes for batteries J Chen, X Fan, Q Li, H Yang, MR Khoshi, Y Xu, S Hwang, L Chen, X Ji, ... Nature Energy 5 (5), 386-397, 2020 | 778 | 2020 |
| Advanced high‐voltage aqueous lithium‐ion battery enabled by “water‐in‐bisalt” electrolyte L Suo, O Borodin, W Sun, X Fan, C Yang, F Wang, T Gao, Z Ma, ... Angewandte Chemie 128 (25), 7252-7257, 2016 | 725 | 2016 |
| All-temperature batteries enabled by fluorinated electrolytes with non-polar solvents X Fan, X Ji, L Chen, J Chen, T Deng, F Han, J Yue, N Piao, R Wang, ... Nature Energy 4 (10), 882-890, 2019 | 710 | 2019 |
| Fluorinated solid electrolyte interphase enables highly reversible solid-state Li metal battery X Fan, X Ji, F Han, J Yue, J Chen, L Chen, T Deng, J Jiang, C Wang Science advances 4 (12), eaau9245, 2018 | 673 | 2018 |
| “Water‐in‐salt” electrolyte makes aqueous sodium‐ion battery safe, green, and long‐lasting L Suo, O Borodin, Y Wang, X Rong, W Sun, X Fan, S Xu, MA Schroeder, ... Advanced Energy Materials 7 (21), 1701189, 2017 | 611 | 2017 |
| High-voltage liquid electrolytes for Li batteries: progress and perspectives X Fan, C Wang Chemical Society Reviews 50 (18), 10486-10566, 2021 | 537 | 2021 |
| 4.0 V aqueous Li-ion batteries C Yang, J Chen, T Qing, X Fan, W Sun, A von Cresce, MS Ding, ... Joule 1 (1), 122-132, 2017 | 515 | 2017 |
| Interphase engineering enabled all-ceramic lithium battery F Han, J Yue, C Chen, N Zhao, X Fan, Z Ma, T Gao, F Wang, X Guo, ... Joule 2 (3), 497-508, 2018 | 460 | 2018 |
| Red phosphorus–single-walled carbon nanotube composite as a superior anode for sodium ion batteries Y Zhu, Y Wen, X Fan, T Gao, F Han, C Luo, SC Liou, C Wang ACS nano 9 (3), 3254-3264, 2015 | 418 | 2015 |
| Extremely stable antimony–carbon composite anodes for potassium-ion batteries J Zheng, Y Yang, X Fan, G Ji, X Ji, H Wang, S Hou, MR Zachariah, ... Energy & Environmental Science 12 (2), 615-623, 2019 | 411 | 2019 |
| Hybrid aqueous/non-aqueous electrolyte for safe and high-energy Li-ion batteries F Wang, O Borodin, MS Ding, M Gobet, J Vatamanu, X Fan, T Gao, ... Joule 2 (5), 927-937, 2018 | 384 | 2018 |
| High-Performance All-Solid-State Lithium–Sulfur Battery Enabled by a Mixed-Conductive Li2S Nanocomposite F Han, J Yue, X Fan, T Gao, C Luo, Z Ma, L Suo, C Wang Nano letters 16 (7), 4521-4527, 2016 | 379 | 2016 |
| Critical review on low‐temperature Li‐ion/metal batteries N Zhang, T Deng, S Zhang, C Wang, L Chen, C Wang, X Fan Advanced Materials 34 (15), 2107899, 2022 | 344 | 2022 |
| Solid‐state electrolyte design for lithium dendrite suppression X Ji, S Hou, P Wang, X He, N Piao, J Chen, X Fan, C Wang Advanced Materials 32 (46), 2002741, 2020 | 311 | 2020 |