Kang Xu (许康)
Kang Xu (许康)
MRS Fellow, ECS Fellow, ARL Fellow (emeritus), Chief Scientist at SES AI
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Nonaqueous liquid electrolytes for lithium-based rechargeable batteries
K Xu
Chemical reviews 104 (10), 4303-4418, 2004
Electrolytes and interphases in Li-ion batteries and beyond
K Xu
Chemical reviews 114 (23), 11503-11618, 2014
“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
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
Before Li ion batteries
M Winter, B Barnett, K Xu
Chemical reviews 118 (23), 11433-11456, 2018
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
Quantifying inactive lithium in lithium metal batteries
C Fang, J Li, M Zhang, Y Zhang, F Yang, JZ Lee, MH Lee, J Alvarado, ...
Nature 572 (7770), 511-515, 2019
Electrochemical impedance study on the low temperature of Li-ion batteries
SS Zhang, K Xu, TR Jow
Electrochimica acta 49 (7), 1057-1061, 2004
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
The low temperature performance of Li-ion batteries
SS Zhang, K Xu, TR Jow
Journal of Power Sources 115 (1), 137-140, 2003
EIS study on the formation of solid electrolyte interface in Li-ion battery
SS Zhang, K Xu, TR Jow
Electrochimica acta 51 (8-9), 1636-1640, 2006
Localized high-concentration sulfone electrolytes for high-efficiency lithium-metal batteries
X Ren, S Chen, H Lee, D Mei, MH Engelhard, SD Burton, W Zhao, ...
Chem 4 (8), 1877-1892, 2018
Realizing high zinc reversibility in rechargeable batteries
L Ma, MA Schroeder, O Borodin, TP Pollard, MS Ding, C Wang, K Xu
Nature Energy 5 (10), 743-749, 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 International Edition 55 (25), 7136-7141, 2016
Electrospun Sb/C fibers for a stable and fast sodium-ion battery anode
Y Zhu, X Han, Y Xu, Y Liu, S Zheng, K Xu, L Hu, C Wang
ACS nano 7 (7), 6378-6386, 2013
Aqueous Li-ion battery enabled by halogen conversion–intercalation chemistry in graphite
C Yang, J Chen, X Ji, TP Pollard, X Lü, CJ Sun, S Hou, Q Liu, C Liu, ...
Nature 569 (7755), 245-250, 2019
Fluorinated interphase enables reversible aqueous zinc battery chemistries
L Cao, D Li, T Pollard, T Deng, B Zhang, C Yang, L Chen, J Vatamanu, ...
Nature nanotechnology 16 (8), 902-910, 2021
A rechargeable zinc-air battery based on zinc peroxide chemistry
W Sun, F Wang, B Zhang, M Zhang, V Küpers, X Ji, C Theile, P Bieker, ...
Science 371 (6524), 46-51, 2021
New concepts in electrolytes
M Li, C Wang, Z Chen, K Xu, J Lu
Chemical reviews 120 (14), 6783-6819, 2020
“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
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