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Microstructure and Charge-discharge Properties of a Li3CuS2 active material for All-Solid-State Batteries

Published online by Cambridge University Press:  30 July 2021

Hirofumi Tsukasaki
Affiliation:
Department of Materials Science, Osaka Prefecture University, United States
Tomoji Ayama
Affiliation:
Department of Materials Science, Osaka Prefecture University, United States
Yusuke Kawasaki
Affiliation:
Osaka Prefecture University, United States
Hiroshi Nakajima
Affiliation:
Department of Materials Science, Osaka Prefecture University, Sakai, Osaka, Japan
Masahiro Tatsumisago
Affiliation:
Osaka Prefecture University, United States
Atsushi Sakuda
Affiliation:
Osaka Prefecture University, United States
Akitoshi Hayashi
Affiliation:
Osaka Prefecture University, United States
Shigeo Mori
Affiliation:
Department of Materials Science, Osaka Prefecture University, Sakai, Osaka, Japan

Abstract

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Type
Microscopy & Spectroscopy of Energy Conversion and Storage Materials
Copyright
Copyright © The Author(s), 2021. Published by Cambridge University Press on behalf of the Microscopy Society of America

References

Kamaya, N., Homma, K., Yamakawa, Y., Hirayama, M., Kanno, R., Yonemura, M., Kamiyama, T., Kato, Y., Hama, S., Kawamoto, K., Mitsui, A., A lithium superionic conductor. Nat. Mater., 10, 682 (2011)Google ScholarPubMed
Sakuda, A., Hayashi, A., Tatsumisago, M., Sulfide solid electrolyte with favorable mechanical property for all-solid-state lithium battery. Sci. Rep., 3, 2261 (2013).CrossRefGoogle ScholarPubMed
Kawasaki, Y., Tsukasaki, H., Ayama, T., Mori, S., Deguchi, M., Tatsumisago, M., Sakuda, A., Hayashi, A., Synthesis and Electrochemical Properties of Li3CuS2 as a Positive Electrode Material for All-Solid-State Batteries. ACS Appl. Energy Mater., 4, 2024 (2021).CrossRefGoogle Scholar