A low-cost inorganic oxide as dual-functional electrolyte additive towards long cycling Li-rich Mn-based cathode materials

电解质 阴极 自行车 材料科学 氧化物 化学工程 对偶(语法数字) 无机化学 冶金 化学 电极 物理化学 艺术 考古 工程类 文学类 历史
作者
Dongwei Zhou,Guiyang Gao,Zhanlin Yang,Weibin Guo,Liang Lin,Yinggan Zhang,Chengkun Zhang,Saichao Li,Yuanyuan Liu,Baisheng Sa,Guoying Wei,Dong‐Liang Peng,Jie Lin,Qingshui Xie
出处
期刊:Energy materials [OAE Publishing Inc.]
卷期号:5 (4): 500033-500033 被引量:2
标识
DOI:10.20517/energymater.2024.186
摘要

Li-rich Mn-based cathode materials (LRM) have received great attention owing to their high capacity and low cost. However, the mismatch between the widely used carbonate electrolyte and the LRM cathode and lithium metal anode causes a series of problems, such as electrolyte continuous oxidation, cathode structure degradation, and Li dendritic growth. Herein, inorganic oxide B2O3 is introduced as a dual-functional high-voltage electrolyte additive to construct stable cathode electrolyte interphase and solid electrolyte interphase for Li||LRM batteries. The modified interface derived from the additive can induce dendrite-free Li deposition, stabilize cathode structure, and inhibit transition metal dissolution. Moreover, the adverse side reactions are mitigated, thus enhancing Li+ transport rate and reducing interface impedance. With the addition of B2O3 into the carbonate electrolyte, the Li||LRM battery exhibits an enhanced discharge capacity of 221 mAh g-1 after 200 cycles, equaling a capacity retention of 92.1%. When the upper cut-off voltage is increased to 5 V, a superior capacity retention of > 85% can still be achieved after 150 cycles at 1 C. In addition, the low cost of B2O3 benefits for commercial application. This work offers new guidance for the research of low-cost, high-voltage dual-functional additives for advanced lithium metal batteries.
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