Ternary Rotational Polyanion Coupling Enables Fast Li Ion Dynamics in Tetrafluoroborate Ion Doped Antiperovskite Li<sub>2</sub>OHCl Solid Electrolyte
Juncao Bian, Sifan Ling, Bei Deng, Bei Deng, Haibin Lin, Ruo Zhao, Long Kong, Huimin Yuan, Jinlong Zhu, Songbai Han, Liping Wang, Ruiqin Zhang, Yusheng Zhao, Yusheng Zhao, Zhouguang Lu, Zhouguang Lu
Abstract
Abstract Li‐rich antiperovskite (LiRAP) hydroxyhalides are emerging as attractive solid electrolyte (SEs) for all‐solid‐state Li metal batteries (ASSLMBs) due to their low melting point, low cost, and ease of scaling‐up. The incorporation of rotational polyanions can reduce the activation energy and thus improve the Li ion conductivity of SEs. Herein, we propose a ternary rotational polyanion coupling strategy to fasten the Li ion conduction in tetrafluoroborate (BF 4 − ) ion doped LiRAP Li 2 OHCl. Assisted by first‐principles calculation, powder X‐ray diffraction, solid‐state magnetic resonance and electrochemical impedance spectra, it is confirmed that Li ion transport in BF 4 − ion doped Li 2 OHCl is strongly associated with the rotational coupling among OH − , BF 4 − and Li 2 −O−H octahedrons, which enhances the Li ion conductivity for more than 1.8 times with the activation energy lowering 0.03 eV. This work provides a new perspective to design high‐performance superionic conductors with multi‐polyanions.