TiO2 phase-controlled synthesis of Li-La-TiO solid electrolytes for advanced all-solid-state batteries

Minjeong Kim; Wolil Nam; Jihye Seo; Jihyun Park; Seokha Heo; Yuna Hwang; Sang-Soo Chee; Soobeom Lee; Seungchan Cho; Geon−hyoung An; Yangdo Kim; Moonhee Choi

doi:10.1080/21870764.2024.2403258

Journal of Asian Ceramic Societies (Sep 2024)

TiO2 phase-controlled synthesis of Li-La-TiO solid electrolytes for advanced all-solid-state batteries

Minjeong Kim,
Wolil Nam,
Jihye Seo,
Jihyun Park,
Seokha Heo,
Yuna Hwang,
Sang-Soo Chee,
Soobeom Lee,
Seungchan Cho,
Geon−hyoung An,
Yangdo Kim,
Moonhee Choi

Affiliations

Minjeong Kim: Electronic Convergence Division, Korea Institute of Ceramic Engineering & Technology, Jinju, Korea
Wolil Nam: Electronic Convergence Division, Korea Institute of Ceramic Engineering & Technology, Jinju, Korea
Jihye Seo: Electronic Convergence Division, Korea Institute of Ceramic Engineering & Technology, Jinju, Korea
Jihyun Park: Electronic Convergence Division, Korea Institute of Ceramic Engineering & Technology, Jinju, Korea
Seokha Heo: Electronic Convergence Division, Korea Institute of Ceramic Engineering & Technology, Jinju, Korea
Yuna Hwang: Electronic Convergence Division, Korea Institute of Ceramic Engineering & Technology, Jinju, Korea
Sang-Soo Chee: Electronic Convergence Division, Korea Institute of Ceramic Engineering & Technology, Jinju, Korea
Soobeom Lee: Department of Energy System Engineering, Gyeongsang National University, Jinju, Republic of Korea
Seungchan Cho: Composites Research Division, Korea Institute of Materials Science, Changwon, Korea
Geon−hyoung An: Department of Energy System Engineering, Gyeongsang National University, Jinju, Republic of Korea
Yangdo Kim: School of Materials Science and Engineering, Pusan National University, Busan, Korea
Moonhee Choi: Electronic Convergence Division, Korea Institute of Ceramic Engineering & Technology, Jinju, Korea

DOI: https://doi.org/10.1080/21870764.2024.2403258

Abstract

Read online

This study focused on achieving high ionic conductivity in Li-La-TiO (LLTO) solid electrolyte. To enhance ionic conductivity, the synthesis reaction was optimized by controlling the composite crystal structure of TiO2 at the B-site of the perovskite (ABO3) structured LLTO, incorporating rutile, brookite, and anatase phases. The solid-phase LLTO, synthesized utilizing the core – shell structured composite-phase TiO2 developed in this study for the first time, successfully transformed its crystal structure to β-LLTO (tetragonal to cubic). This resulted in a significant improvement in ionic conductivity (i.e. 1.11 × 10−4 Scm−1). The study findings confirmed that the composite crystal structure TiO2 used in the solid-phase synthesis of LLTO induced an increase in oxygen vacancies during the synthesis process, thereby reducing the step-free energy required for the final synthesis.

Published in Journal of Asian Ceramic Societies

ISSN: 2187-0764 (Online)
Publisher: Taylor & Francis Group
Country of publisher: United Kingdom
LCC subjects: Technology: Chemical technology: Clay industries. Ceramics. Glass
Website: https://www.tandfonline.com/journals/tace

About the journal

Abstract

Keywords