TEM Observation of LaPO4-Dispersed LATP Lithium-Ion Conductor

Fangzhou SONG; Harunobu ONISHI; Wen-Jauh CHEN; Takeshi YABUTSUKA; Takeshi YAO; Shigeomi TAKAI

doi:10.5796/electrochemistry.21-00071

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TEM Observation of LaPO₄-Dispersed LATP Lithium-Ion Conductor

Fangzhou SONG, Harunobu ONISHI, Wen-Jauh CHEN, Takeshi YABUTSUKA, Takeshi YAO, Shigeomi TAKAI

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Keywords: HRTEM, Lithium-ion Conductor, LATP, Space Charge Layer

JOURNAL OPEN ACCESS

2021 Volume 89 Issue 5 Pages 480-483

DOI https://doi.org/10.5796/electrochemistry.21-00071

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Abstract

We have previously reported that a three-fold increase in lithium-ion conduction can be achieved on LATP (Li_1.3Al_0.3Ti_1.7(PO₄)₃) by dispersing LaPO₄ particles through the co-sintering of LATP with 4 wt% of LLTO (Li_0.348La_0.55TiO₃). However, the LaPO₄ formation during sintering has been detected only by means of XRD and back-scattered SEM, and precise morphology of LaPO₄ particles as well as LATP/LaPO₄ interface have still been uncertain. In the present study, we carried out TEM experiments on the LaPO₄-dispersed LATP composite to investigate the detailed microstructure and compositions of the dispersed LaPO₄ particles and surrounding LATP matrix. HR-TEM coupled with EDS reveals that LaPO₄ particle attains an intimate contact with the LATP matrix, which would allow the formation of space charge layer at the interface to enhance the conductivity.

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