AC Impedance Analysis of the Degeneration and Recovery of Argyrodite Sulfide-Based Solid Electrolytes under Dry-Room-Simulated Condition

Hikaru SANO; Yusuke MORINO; Akinori YABUKI; Shimpei SATO; Naohiko ITAYAMA; Yasuyuki MATSUMURA; Masahiro IWASAKI; Masahiro TAKEHARA; Takeshi ABE; Yasuo ISHIGURO; Tsukasa TAKAHASHI; Norihiko MIYASHITA; Atsushi SAKUDA; Akitoshi HAYASHI

doi:10.5796/electrochemistry.22-00013

Electrochemistry (Mar 2022)

AC Impedance Analysis of the Degeneration and Recovery of Argyrodite Sulfide-Based Solid Electrolytes under Dry-Room-Simulated Condition

Hikaru SANO,
Yusuke MORINO,
Akinori YABUKI,
Shimpei SATO,
Naohiko ITAYAMA,
Yasuyuki MATSUMURA,
Masahiro IWASAKI,
Masahiro TAKEHARA,
Takeshi ABE,
Yasuo ISHIGURO,
Tsukasa TAKAHASHI,
Norihiko MIYASHITA,
Atsushi SAKUDA,
Akitoshi HAYASHI

Affiliations

Hikaru SANO: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Yusuke MORINO: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Akinori YABUKI: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Shimpei SATO: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Naohiko ITAYAMA: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Yasuyuki MATSUMURA: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Masahiro IWASAKI: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Masahiro TAKEHARA: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Takeshi ABE: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Yasuo ISHIGURO: Consortium for Lithium Ion Battery Technology and Evaluation Center (LIBTEC)
Tsukasa TAKAHASHI: Mitsui Mining and Smelting Co., Ltd.
Norihiko MIYASHITA: Mitsui Mining and Smelting Co., Ltd.
Atsushi SAKUDA: Graduate School of Engineering, Osaka Prefecture University
Akitoshi HAYASHI: Graduate School of Engineering, Osaka Prefecture University

DOI: https://doi.org/10.5796/electrochemistry.22-00013
Journal volume & issue: Vol. 90, no. 3
pp. 037012 – 037012

Abstract

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Toward the development of all-solid-state batteries with enhanced performance, this study describes the investigation of the degeneration mechanism under low-humid conditions of an argyrodite-type sulfide-based solid electrolyte. The degeneration of the electrolyte with moisture occurs even under the condition of super-low humidity in a dry room with a dew point (dp) as low as −50 °Cdp. Formation of hydrogen sulfide is detected when the electrolyte is exposed to dry air with −20 °Cdp. The results of impedance measurements suggest that the grain surface of the electrolyte is degenerated with moisture, resulting in a decrease in the lithium-ion conductivity at the grain boundary. The degenerated electrolyte surface can be partially recovered by heating at 170 °C in vacuo, although a small degeneration in bulk may occur in the heating process.

Published in Electrochemistry

ISSN: 2186-2451 (Online)
Publisher: The Electrochemical Society of Japan
Country of publisher: Japan
LCC subjects: Technology; Science: Chemistry: Physical and theoretical chemistry
Website: https://journal.electrochem.jp/

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