非金属
化学
相容性(地球化学)
电解质
金属
快离子导体
固溶体
金属锂
化学工程
导电体
相间
兴奋剂
无机化学
纳米技术
产量(工程)
金属有机骨架
聚合物电解质
电化学
科技与社会
氧化还原
作者
LH Hu,Jingming Yao,Changshun Li,Kejun Yan,Jinfeng Zhu,Yi-Xiang Wang,Hui Li,Fengqian Chen,Huaican Chen,Wen Yin,Jie Ma,Jun Jiang,Zhuoying Zhu,Jianyu Huang,Cheng Ma
摘要
Typically, the Li incompatibility of inorganic solid electrolytes (ISEs) arises from the presence of non-Li metal cations, which will be reduced into electronic conductors to promote further reactions. Making such ISEs compatible with Li can significantly expand the candidate pool for ISEs in Li metal batteries, but, to this end, the Li/ISE interphase, which inevitably contains electronic conductors, must become electron-blocking. Here, we propose a nonmetal cation incorporation strategy to achieve such a seemingly paradoxical goal. By populating the ISE with nonmetal cations that would yield electron-blocking reduction products, we can make the electron-blocking species in the Li/ISE interphase predominate over the electronic conductors, thereby blocking electron percolation. This strategy significantly improves the Li compatibility in Zr-based oxychloride ISEs, which possess numerous advantages but have always been Li-incompatible; the 0.8Li 2 SO 4 –ZrCl 4 ISE we design enables stable cycling of Li symmetric cells (5000 h), Li–LiNi 0.92 Co 0.06 Mn 0.02 O 2 cells (80% capacity retention for 170 cycles), and Li 13 Si 4 –LiNi 0.92 Co 0.06 Mn 0.02 O 2 cells (80% capacity retention for 1312 cycles) at 25 °C. Our strategy opens new avenues for the development of Li-compatible ISEs.
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