Improving the Ionic Conductivity of Li 1+x Al x Ti 2−x (PO 4 ) 3 in a Solid-State Synthesis by Regulating Li–O Bond with B 3+ and Y 3

Li 1+x Al x Ti 2−x (PO 4 ) 3 (LATP) is a promising solid electrolyte owing to its high stability and ionic conductivity. But the ionic conductivity of LATP prepared by a conventional solid-phase method is usually one order of magnitude lower than the one prepared by the liquid-phase method. Herein,...

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Published in:Journal of the Electrochemical Society 2022-12, Vol.169 (12), p.120535
Main Authors: Wang, Ruoyu, Chen, Butian, Liu, Chong, Yin, Wen, Chen, Huaican, Zhang, Jicheng, Zhang, Tianran, Sun, Limei, Liu, Xiangfeng
Format: Article
Language:English
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Summary:Li 1+x Al x Ti 2−x (PO 4 ) 3 (LATP) is a promising solid electrolyte owing to its high stability and ionic conductivity. But the ionic conductivity of LATP prepared by a conventional solid-phase method is usually one order of magnitude lower than the one prepared by the liquid-phase method. Herein, we achieve a high ionic conductivity of 1.2 mS·cm −1 by doping B 3+ and Y 3+ ions in LATP in a solid-state synthesis, and the roles of the dopants are revealed. The incorporation of B 3+ and Y 3+ in the lattice broadens the ion migration path and mitigates the Li + migration energy barrier. On the other hand, the strong electrostatic interaction between B–O and Y–O bond weakens the electrostatic attraction between the Li–O bond, which makes the Li–O bond easier to break, and greatly improves the ion conductivity of LATP. This study sheds light on the facile solid-state synthesis of LATP with a high ion conductivity and accelerates the incoming practical application in the solid-state battery.
ISSN:0013-4651
1945-7111
DOI:10.1149/1945-7111/acadb3