Solid Electrolyte: Strategies to Address the Safety of All Solid‐State Batteries

Solid Electrolyte: Strategies to Address the Safety of All Solid‐State Batteries

Lithium metal batteries (LMBs) are in the spotlight as a next‐generation battery due to their high theoretical capacity. However, LMBs still suffer from inferior cycle stability owing to dendritic lithium (Li) growth during Li plating and stripping, leading to battery explosion. To solve this proble...

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Main Authors: Seong Soo Park, Sang A Han, Rashma Chaudhary, Joo Hyeong Suh, Janghyuk Moon, Min-Sik Park, Jung Ho Kim
Format: Article
Language:English
Published: Wiley-VCH 2023-11-01
Series:Advanced Energy & Sustainability Research
Subjects:
all solid batteries
interfacial resistance
ionic conductivity
moisture stability
solid electrolytes
Online Access:https://doi.org/10.1002/aesr.202300074
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author Seong Soo Park
Sang A Han
Rashma Chaudhary
Joo Hyeong Suh
Janghyuk Moon
Min-Sik Park
Jung Ho Kim
author_facet Seong Soo Park
Sang A Han
Rashma Chaudhary
Joo Hyeong Suh
Janghyuk Moon
Min-Sik Park
Jung Ho Kim
author_sort Seong Soo Park
collection DOAJ
description Lithium metal batteries (LMBs) are in the spotlight as a next‐generation battery due to their high theoretical capacity. However, LMBs still suffer from inferior cycle stability owing to dendritic lithium (Li) growth during Li plating and stripping, leading to battery explosion. To solve this problem, solid electrolytes have emerged as a promising candidate by suppressing the dendritic Li growth. Despite numerous efforts, however, many challenges, such as low ionic conductivity, air stability, space charge layer, and contact loss issues, have been encountered. This review aims to provide the current challenges and new insights of solid electrolytes and then explore optimal solutions for next‐generation solid electrolytes.
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spelling doaj.art-5689995c141c4d31a8ac1e30d981a71e2023-11-08T09:38:04ZengWiley-VCHAdvanced Energy & Sustainability Research2699-94122023-11-01411n/an/a10.1002/aesr.202300074Solid Electrolyte: Strategies to Address the Safety of All Solid‐State BatteriesSeong Soo Park0Sang A Han1Rashma Chaudhary2Joo Hyeong Suh3Janghyuk Moon4Min-Sik Park5Jung Ho Kim6Institute for Superconducting and Electronic Materials Australian Institute for Innovative Materials University of Wollongong Squires Way North Wollongong NSW 2500 AustraliaInstitute for Superconducting and Electronic Materials Australian Institute for Innovative Materials University of Wollongong Squires Way North Wollongong NSW 2500 AustraliaInstitute for Superconducting and Electronic Materials Australian Institute for Innovative Materials University of Wollongong Squires Way North Wollongong NSW 2500 AustraliaDepartment of Advanced Materials Engineering for Information and Electronics Integrated Education Institute for Frontier Materials (BK21 Four) Kyung Hee University 1732 Deogyeong–daero Giheung–gu Yongin 17104 Republic of KoreaDepartment of Energy Systems Engineering Chung-Ang University 84 Heukseok-ro Dongjak-gu Seoul 06974 KoreaDepartment of Advanced Materials Engineering for Information and Electronics Integrated Education Institute for Frontier Materials (BK21 Four) Kyung Hee University 1732 Deogyeong–daero Giheung–gu Yongin 17104 Republic of KoreaInstitute for Superconducting and Electronic Materials Australian Institute for Innovative Materials University of Wollongong Squires Way North Wollongong NSW 2500 AustraliaLithium metal batteries (LMBs) are in the spotlight as a next‐generation battery due to their high theoretical capacity. However, LMBs still suffer from inferior cycle stability owing to dendritic lithium (Li) growth during Li plating and stripping, leading to battery explosion. To solve this problem, solid electrolytes have emerged as a promising candidate by suppressing the dendritic Li growth. Despite numerous efforts, however, many challenges, such as low ionic conductivity, air stability, space charge layer, and contact loss issues, have been encountered. This review aims to provide the current challenges and new insights of solid electrolytes and then explore optimal solutions for next‐generation solid electrolytes.https://doi.org/10.1002/aesr.202300074all solid batteriesinterfacial resistanceionic conductivitymoisture stabilitysolid electrolytes
spellingShingle Seong Soo Park
Sang A Han
Rashma Chaudhary
Joo Hyeong Suh
Janghyuk Moon
Min-Sik Park
Jung Ho Kim
Solid Electrolyte: Strategies to Address the Safety of All Solid‐State Batteries
Advanced Energy & Sustainability Research
all solid batteries
interfacial resistance
ionic conductivity
moisture stability
solid electrolytes
title Solid Electrolyte: Strategies to Address the Safety of All Solid‐State Batteries
title_full Solid Electrolyte: Strategies to Address the Safety of All Solid‐State Batteries
title_fullStr Solid Electrolyte: Strategies to Address the Safety of All Solid‐State Batteries
title_full_unstemmed Solid Electrolyte: Strategies to Address the Safety of All Solid‐State Batteries
title_short Solid Electrolyte: Strategies to Address the Safety of All Solid‐State Batteries
title_sort solid electrolyte strategies to address the safety of all solid state batteries
topic all solid batteries
interfacial resistance
ionic conductivity
moisture stability
solid electrolytes
url https://doi.org/10.1002/aesr.202300074
work_keys_str_mv AT seongsoopark solidelectrolytestrategiestoaddressthesafetyofallsolidstatebatteries
AT sangahan solidelectrolytestrategiestoaddressthesafetyofallsolidstatebatteries
AT rashmachaudhary solidelectrolytestrategiestoaddressthesafetyofallsolidstatebatteries
AT joohyeongsuh solidelectrolytestrategiestoaddressthesafetyofallsolidstatebatteries
AT janghyukmoon solidelectrolytestrategiestoaddressthesafetyofallsolidstatebatteries
AT minsikpark solidelectrolytestrategiestoaddressthesafetyofallsolidstatebatteries
AT junghokim solidelectrolytestrategiestoaddressthesafetyofallsolidstatebatteries

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