Progress and Perspective of Controlling Li Dendrites Growth in All‐Solid‐State Li Metal Batteries via External Physical Fields
Li dendrites penetration through solid electrolytes (SEs) challenges the development of solid‐state Li batteries (SSLBs). To date, significant efforts are devoted to understand the mechanistic dynamics of Li dendrites nucleation, growth, and propagation in SEs, and various strategies that aim to alleviate and even inhibit Li dendrite formation have been proposed. Nevertheless, most of these conventional strategies require either additional material processing steps or new materials/layers that eventually increase battery cost and complexity. In contrast, using external fields, such as mechanical force, temperature physical field, electric field, pulse current, and even magnetic field to regulate Li dendrites penetration through SEs, seems to be one of the most cost‐effective strategies. This review focuses on the current research progress of utilizing external physical fields in regulating Li dendrites growth in SSLBs. For this purpose, the mechanical properties of Li and SEs, as well as the experimental results that visually track Li penetration dynamics, are reviewed. Finally, the review ends with remaining open questions in future studies of Li dendrites growth and penetration in SEs. It is hoped this review can shed some light on understanding the complex Li dendrite issues in SSLBs and potentially guide their rational design for further development.
- Location
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Deutsche Nationalbibliothek Frankfurt am Main
- Extent
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Online-Ressource
- Language
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Englisch
- Bibliographic citation
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Progress and Perspective of Controlling Li Dendrites Growth in All‐Solid‐State Li Metal Batteries via External Physical Fields ; day:29 ; month:10 ; year:2023 ; extent:44
Advanced energy & sustainability research ; (29.10.2023) (gesamt 44)
- Creator
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Yao, Jianhua
Zhu, Guoxi
Dong, Kang
Osenberg, Markus
Hilger, André
Markötter, Henning
Ju, Jiangwei
Sun, Fu
Manke, Ingo
Cui, Guanglei
- DOI
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10.1002/aesr.202300165
- URN
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urn:nbn:de:101:1-2023103014045707458522
- Rights
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Open Access; Der Zugriff auf das Objekt ist unbeschränkt möglich.
- Last update
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14.08.2025, 10:59 AM CEST
Data provider
Deutsche Nationalbibliothek. If you have any questions about the object, please contact the data provider.
Associated
- Yao, Jianhua
- Zhu, Guoxi
- Dong, Kang
- Osenberg, Markus
- Hilger, André
- Markötter, Henning
- Ju, Jiangwei
- Sun, Fu
- Manke, Ingo
- Cui, Guanglei
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Publisher Correction: Li–Solid Electrolyte Interfaces/Interphases in All-Solid-State Li Batteries
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Cathode coating using LiInO2-LiI composite for stable sulfide-based all-solid-state batteries
Cubic Iodide Li x YI 3+x Superionic Conductors through Defect Manipulation for All‐Solid‐State Li Batteries
Cubic Iodide Li x YI 3+x Superionic Conductors through Defect Manipulation for All‐Solid‐State Li Batteries
Inhibiting Dendrites by Uniformizing Microstructure of Superionic Lithium Argyrodites for All‐Solid‐State Lithium Metal Batteries
Designing 3D Anode Based on Pore‐Size‐Dependent Li Deposition Behavior for Reversible Li‐Free All‐Solid‐State Batteries
Progress and Perspective of Controlling Li Dendrites Growth in All-Solid-State Li Metal Batteries via External Physical Fields
Li–Solid Electrolyte Interfaces/Interphases in All-Solid-State Li Batteries
Publisher Correction: Li–Solid Electrolyte Interfaces/Interphases in All-Solid-State Li Batteries
Interface Aspects in All‐Solid‐State Li‐Based Batteries Reviewed
Interface Aspects in All‐Solid‐State Li‐Based Batteries Reviewed
Suppressing Li Dendrites via Electrolyte Engineering by Crown Ethers for Lithium Metal Batteries
3D Ordered Li Anode Architectures towards Suppressing Li Dendrites: A Review
Cathode coating using LiInO2-LiI composite for stable sulfide-based all-solid-state batteries
Cubic Iodide Li x YI 3+x Superionic Conductors through Defect Manipulation for All‐Solid‐State Li Batteries
Cubic Iodide Li x YI 3+x Superionic Conductors through Defect Manipulation for All‐Solid‐State Li Batteries
Inhibiting Dendrites by Uniformizing Microstructure of Superionic Lithium Argyrodites for All‐Solid‐State Lithium Metal Batteries