Temperature effects on cycling stability of Li plating/stripping on Ta-doped Li7La3Zr2O12

Fumihiro Yonemoto; Atsuki Nishimura; Munekazu Motoyama; Nobuo Tsuchimine; Susumu Kobayashi; Yasutoshi Iriyama

doi:10.1016/j.jpowsour.2017.01.009

Temperature effects on cycling stability of Li plating/stripping on Ta-doped Li₇La₃Zr₂O₁₂

Fumihiro Yonemoto, Atsuki Nishimura, Munekazu Motoyama, Nobuo Tsuchimine, Susumu Kobayashi, Yasutoshi Iriyama

研究成果: ジャーナルへの寄稿 › 学術誌 › 査読

87 被引用数 (Scopus)

抄録

This paper reports on the cycling stability of Li plating/stripping on Li_6.6La₃Zr_1.6Ta_0.4O₁₂[LLZ(Ta0.4)] with high sintering density at 25, 60, and 100 °C. Plated/stripped Li thicknesses are sequentially increased to 200 nm, 1.0 μm, and 2.0 μm after every ten cycles. The overpotential gradually increases with cycling Li plating/stripping processes, and the cells eventually short-circuit at 25 and 60 °C. However, the cycling stability of Li plating/stripping significantly improves at 100 °C, and the short-circuiting is prevented perfectly. Moreover, the cycling stability of Li plating/stripping at 25 °C is dramatically improved by pre-cycling the cell at 100 °C. Only heating a cell with Li metal at 100 °C for the same duration does not improve the cycling stability of the cell. It is hence considered that forced migrations of Li atoms and ions across entire Li/LLZ(Ta0.4) interfaces at 100 °C change the properties of the interfacial regions even for the following plating/stripping cycles at 25 °C.

本文言語	英語
ページ（範囲）	207-215
ページ数	9
ジャーナル	Journal of Power Sources
巻	343
DOI	https://doi.org/10.1016/j.jpowsour.2017.01.009
出版ステータス	出版済み - 2017
外部発表	はい

!!!All Science Journal Classification (ASJC) codes

再生可能エネルギー、持続可能性、環境
エネルギー工学および電力技術
物理化学および理論化学
電子工学および電気工学

UN SDG

この成果は、次の持続可能な開発目標に貢献しています

文献へのアクセス

10.1016/j.jpowsour.2017.01.009

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引用スタイル

@article{a274029f24344e8ca18620b82a11150e,

title = "Temperature effects on cycling stability of Li plating/stripping on Ta-doped Li7La3Zr2O12",

abstract = "This paper reports on the cycling stability of Li plating/stripping on Li6.6La3Zr1.6Ta0.4O12[LLZ(Ta0.4)] with high sintering density at 25, 60, and 100 °C. Plated/stripped Li thicknesses are sequentially increased to 200 nm, 1.0 μm, and 2.0 μm after every ten cycles. The overpotential gradually increases with cycling Li plating/stripping processes, and the cells eventually short-circuit at 25 and 60 °C. However, the cycling stability of Li plating/stripping significantly improves at 100 °C, and the short-circuiting is prevented perfectly. Moreover, the cycling stability of Li plating/stripping at 25 °C is dramatically improved by pre-cycling the cell at 100 °C. Only heating a cell with Li metal at 100 °C for the same duration does not improve the cycling stability of the cell. It is hence considered that forced migrations of Li atoms and ions across entire Li/LLZ(Ta0.4) interfaces at 100 °C change the properties of the interfacial regions even for the following plating/stripping cycles at 25 °C.",

author = "Fumihiro Yonemoto and Atsuki Nishimura and Munekazu Motoyama and Nobuo Tsuchimine and Susumu Kobayashi and Yasutoshi Iriyama",

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T1 - Temperature effects on cycling stability of Li plating/stripping on Ta-doped Li7La3Zr2O12

AU - Yonemoto, Fumihiro

AU - Nishimura, Atsuki

AU - Motoyama, Munekazu

AU - Tsuchimine, Nobuo

AU - Kobayashi, Susumu

AU - Iriyama, Yasutoshi

PY - 2017

Y1 - 2017

N2 - This paper reports on the cycling stability of Li plating/stripping on Li6.6La3Zr1.6Ta0.4O12[LLZ(Ta0.4)] with high sintering density at 25, 60, and 100 °C. Plated/stripped Li thicknesses are sequentially increased to 200 nm, 1.0 μm, and 2.0 μm after every ten cycles. The overpotential gradually increases with cycling Li plating/stripping processes, and the cells eventually short-circuit at 25 and 60 °C. However, the cycling stability of Li plating/stripping significantly improves at 100 °C, and the short-circuiting is prevented perfectly. Moreover, the cycling stability of Li plating/stripping at 25 °C is dramatically improved by pre-cycling the cell at 100 °C. Only heating a cell with Li metal at 100 °C for the same duration does not improve the cycling stability of the cell. It is hence considered that forced migrations of Li atoms and ions across entire Li/LLZ(Ta0.4) interfaces at 100 °C change the properties of the interfacial regions even for the following plating/stripping cycles at 25 °C.

AB - This paper reports on the cycling stability of Li plating/stripping on Li6.6La3Zr1.6Ta0.4O12[LLZ(Ta0.4)] with high sintering density at 25, 60, and 100 °C. Plated/stripped Li thicknesses are sequentially increased to 200 nm, 1.0 μm, and 2.0 μm after every ten cycles. The overpotential gradually increases with cycling Li plating/stripping processes, and the cells eventually short-circuit at 25 and 60 °C. However, the cycling stability of Li plating/stripping significantly improves at 100 °C, and the short-circuiting is prevented perfectly. Moreover, the cycling stability of Li plating/stripping at 25 °C is dramatically improved by pre-cycling the cell at 100 °C. Only heating a cell with Li metal at 100 °C for the same duration does not improve the cycling stability of the cell. It is hence considered that forced migrations of Li atoms and ions across entire Li/LLZ(Ta0.4) interfaces at 100 °C change the properties of the interfacial regions even for the following plating/stripping cycles at 25 °C.

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