Designing Advanced In Situ Electrode/Electrolyte Interphases for Wide Temperature Operation of 4.5 V Li||LiCoO<sub>2</sub> Batteries
Xiaodi Ren, Xianhui Zhang, Zulipiya Shadike, Lianfeng Zou, Hao Jia, Xia Cao, Mark Engelhard, Bethany E. Matthews, Chongmin Wang, Bruce W. Arey, Xiao‐Qing Yang, Jun Liu, Ji‐Guang Zhang, Wu Xu
Abstract
Abstract High‐energy‐density batteries with a LiCoO 2 (LCO) cathode are of significant importance to the energy‐storage market, especially for portable electronics. However, their development is greatly limited by the inferior performance under high voltages and challenging temperatures. Here, highly stable lithium (Li) metal batteries with LCO cathode, through the design of in situ formed, stable electrode/electrolyte interphases on both the Li anode and the LCO cathode, with an advanced electrolyte, are reported. The LCO cathode can deliver a high specific capacity of ≈190 mAh g −1 and show greatly improved cell performances under a high charge voltage of 4.5 V (even up to 4.55 V) and a wide temperature range from −30 to 55 °C. This work points out a promising approach for developing Li||LCO batteries for practical applications. This approach can also be used to improve the high‐voltage performance of other batteries in a broad temperature range.