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A complex hydride lithium superionic conductor for high-energy-density all-solid-state lithium metal batteries.


ABSTRACT: All-solid-state batteries incorporating lithium metal anode have the potential to address the energy density issues of conventional lithium-ion batteries that use flammable organic liquid electrolytes and low-capacity carbonaceous anodes. However, they suffer from high lithium ion transfer resistance, mainly due to the instability of the solid electrolytes against lithium metal, limiting their use in practical cells. Here, we report a complex hydride lithium superionic conductor, 0.7Li(CB9H10)-0.3Li(CB11H12), with excellent stability against lithium metal and a high conductivity of 6.7?×?10-3?S?cm-1 at 25?°C. This complex hydride exhibits stable lithium plating/stripping reaction with negligible interfacial resistance (<1???cm2) at 0.2?mA?cm-2, enabling all-solid-state lithium-sulfur batteries with high energy density (>2500?Wh?kg-1) at a high current density of 5016?mA?g-1. The present study opens up an unexplored research area in the field of solid electrolyte materials, contributing to the development of high-energy-density batteries.

SUBMITTER: Kim S 

PROVIDER: S-EPMC6403359 | biostudies-literature | 2019 Mar

REPOSITORIES: biostudies-literature

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A complex hydride lithium superionic conductor for high-energy-density all-solid-state lithium metal batteries.

Kim Sangryun S   Oguchi Hiroyuki H   Toyama Naoki N   Sato Toyoto T   Takagi Shigeyuki S   Otomo Toshiya T   Arunkumar Dorai D   Kuwata Naoaki N   Kawamura Junichi J   Orimo Shin-Ichi SI  

Nature communications 20190306 1


All-solid-state batteries incorporating lithium metal anode have the potential to address the energy density issues of conventional lithium-ion batteries that use flammable organic liquid electrolytes and low-capacity carbonaceous anodes. However, they suffer from high lithium ion transfer resistance, mainly due to the instability of the solid electrolytes against lithium metal, limiting their use in practical cells. Here, we report a complex hydride lithium superionic conductor, 0.7Li(CB<sub>9<  ...[more]

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