Promises, Challenges, and Recent Progress of Inorganic Solid‐State Electrolytes for All‐Solid‐State Lithium Batteries

All‐solid‐state lithium batteries (ASSLBs) have the potential to revolutionize battery systems for electric vehicles due to their benefits in safety, energy density, packaging, and operable temperature range. As the key component in ASSLBs, inorganic lithium‐ion‐based solid‐state electrolytes (SSEs)...

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Published inAdvanced materials (Weinheim) Vol. 30; no. 17; pp. e1705702 - n/a
Main Authors Gao, Zhonghui, Sun, Huabin, Fu, Lin, Ye, Fangliang, Zhang, Yi, Luo, Wei, Huang, Yunhui
Format Journal Article
LanguageEnglish
Published Germany Wiley Subscription Services, Inc 01.04.2018
Subjects
all‐solid‐state lithium batteries
Batteries
Electric vehicles
Electrolytes
Flux density
inorganic solid‐state electrolytes
interfacial resistance
Ion currents
Lithium
Lithium batteries
Materials science
Molten salt electrolytes
Product safety
Solid electrolytes
stability
Strain
synthesis
interfacial resistance
synthesis
all-solid-state lithium batteries
stability
inorganic solid-state electrolytes
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Abstract All‐solid‐state lithium batteries (ASSLBs) have the potential to revolutionize battery systems for electric vehicles due to their benefits in safety, energy density, packaging, and operable temperature range. As the key component in ASSLBs, inorganic lithium‐ion‐based solid‐state electrolytes (SSEs) have attracted great interest, and advances in SSEs are vital to deliver the promise of ASSLBs. Herein, a survey of emerging SSEs is presented, and ion‐transport mechanisms are briefly discussed. Techniques for increasing the ionic conductivity of SSEs, including substitution and mechanical strain treatment, are highlighted. Recent advances in various classes of SSEs enabled by different preparation methods are described. Then, the issues of chemical stabilities, electrochemical compatibility, and the interfaces between electrodes and SSEs are focused on. A variety of research addressing these issues is outlined accordingly. Given their importance for next‐generation battery systems and transportation style, a perspective on the current challenges and opportunities is provided, and suggestions for future research directions for SSEs and ASSLBs are suggested. Inorganic solid‐state electrolytes (SSEs) offer numerous advantages for the development of next‐generation batteries. The most promising advantages are the safety that benefits from the nonflammable nature of SSEs and the possibility of using a Li‐metal anode, which has highest capacity, lowest anodic potential, and is indispensable to the future success of high‐energy‐density Li–S batteries and Li–O2 battery systems.
AbstractList All-solid-state lithium batteries (ASSLBs) have the potential to revolutionize battery systems for electric vehicles due to their benefits in safety, energy density, packaging, and operable temperature range. As the key component in ASSLBs, inorganic lithium-ion-based solid-state electrolytes (SSEs) have attracted great interest, and advances in SSEs are vital to deliver the promise of ASSLBs. Herein, a survey of emerging SSEs is presented, and ion-transport mechanisms are briefly discussed. Techniques for increasing the ionic conductivity of SSEs, including substitution and mechanical strain treatment, are highlighted. Recent advances in various classes of SSEs enabled by different preparation methods are described. Then, the issues of chemical stabilities, electrochemical compatibility, and the interfaces between electrodes and SSEs are focused on. A variety of research addressing these issues is outlined accordingly. Given their importance for next-generation battery systems and transportation style, a perspective on the current challenges and opportunities is provided, and suggestions for future research directions for SSEs and ASSLBs are suggested.
All‐solid‐state lithium batteries (ASSLBs) have the potential to revolutionize battery systems for electric vehicles due to their benefits in safety, energy density, packaging, and operable temperature range. As the key component in ASSLBs, inorganic lithium‐ion‐based solid‐state electrolytes (SSEs) have attracted great interest, and advances in SSEs are vital to deliver the promise of ASSLBs. Herein, a survey of emerging SSEs is presented, and ion‐transport mechanisms are briefly discussed. Techniques for increasing the ionic conductivity of SSEs, including substitution and mechanical strain treatment, are highlighted. Recent advances in various classes of SSEs enabled by different preparation methods are described. Then, the issues of chemical stabilities, electrochemical compatibility, and the interfaces between electrodes and SSEs are focused on. A variety of research addressing these issues is outlined accordingly. Given their importance for next‐generation battery systems and transportation style, a perspective on the current challenges and opportunities is provided, and suggestions for future research directions for SSEs and ASSLBs are suggested. Inorganic solid‐state electrolytes (SSEs) offer numerous advantages for the development of next‐generation batteries. The most promising advantages are the safety that benefits from the nonflammable nature of SSEs and the possibility of using a Li‐metal anode, which has highest capacity, lowest anodic potential, and is indispensable to the future success of high‐energy‐density Li–S batteries and Li–O2 battery systems.
Author Huang, Yunhui
Ye, Fangliang
Sun, Huabin
Fu, Lin
Luo, Wei
Zhang, Yi
Gao, Zhonghui
Author_xml – sequence: 1
  givenname: Zhonghui
  surname: Gao
  fullname: Gao, Zhonghui
– sequence: 2
  givenname: Huabin
  surname: Sun
  fullname: Sun, Huabin
– sequence: 3
  givenname: Lin
  surname: Fu
  fullname: Fu, Lin
– sequence: 4
  givenname: Fangliang
  surname: Ye
  fullname: Ye, Fangliang
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  givenname: Yi
  surname: Zhang
  fullname: Zhang, Yi
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  givenname: Wei
  surname: Luo
  fullname: Luo, Wei
  email: weiluo@tongji.edu.cn
– sequence: 7
  givenname: Yunhui
  surname: Huang
  fullname: Huang, Yunhui
  email: huangyh@tongji.edu.cn
BackLink https://www.ncbi.nlm.nih.gov/pubmed/29468745$$D View this record in MEDLINE/PubMed
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synthesis
all-solid-state lithium batteries
stability
inorganic solid-state electrolytes
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Snippet All‐solid‐state lithium batteries (ASSLBs) have the potential to revolutionize battery systems for electric vehicles due to their benefits in safety, energy...
All-solid-state lithium batteries (ASSLBs) have the potential to revolutionize battery systems for electric vehicles due to their benefits in safety, energy...
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pubmed
wiley
SourceType Aggregation Database
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Publisher
StartPage e1705702
SubjectTerms all‐solid‐state lithium batteries
Batteries
Electric vehicles
Electrolytes
Flux density
inorganic solid‐state electrolytes
interfacial resistance
Ion currents
Lithium
Lithium batteries
Materials science
Molten salt electrolytes
Product safety
Solid electrolytes
stability
Strain
synthesis
Title Promises, Challenges, and Recent Progress of Inorganic Solid‐State Electrolytes for All‐Solid‐State Lithium Batteries
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fadma.201705702
https://www.ncbi.nlm.nih.gov/pubmed/29468745
https://www.proquest.com/docview/2028977110
https://search.proquest.com/docview/2007423886
Volume 30
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