Recent advances in functionalized separator for dendrites-free and stable lithium metal batteries

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autorschaft

  • Xiaojuan Zhang
  • Yu Wu
  • Bo Yu
  • Kunpeng Hu
  • Ping Zhang
  • Fei Ding
  • Lin Zhang
  • Yuanfu Chen
  • Jian Zhen Ou
  • Zhigang Zhang

Organisationseinheiten

Externe Organisationen

  • Army Medical University, Chongqing
  • University of Electronic Science and Technology of China
  • Southwest Petroleum University China
  • Royal Melbourne Institute of Technology University
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Details

OriginalspracheEnglisch
Seiten (von - bis)549-598
Seitenumfang50
FachzeitschriftEcoEnergy
Jahrgang2
Ausgabenummer4
PublikationsstatusVeröffentlicht - 20 Dez. 2024

Abstract

Abstract Lithium (Li) metal anode is considered the ?Holy grail? for the most promising next-generation rechargeable lithium metal batteries (LMBs) because of ultra-high theoretical specific capacity, ultra-low reduction potential and small density. However, uncontrolled lithium dendrite growth and inevitable side reaction seriously hindered the application of practical LMBs because of the deteriorating electrochemical performances and exacerbating the safety issues of LMBs. Thus, improving the electrochemical performances of LMBs by constructed of functionalized separator is promising for overcoming the above-mentioned challenges due to its' significantly advantages, such as enhancing mechanical and thermal stability, regulating the diffusion and migration of Li ions, homogenizing Li ion flux, forming protective layer on Li anode surfaces, etc. The relational investigations have significantly increased since 2020, while the comprehensive reviews on this research direction are relatively rare, especially in the detailed mechanism aspects. In this review, an overview in functionalized separator for stable LMBs is discussed in detail. Firstly, the current issues of LMBs are in-depth discussion and the general strategies are summarized. Subsequently, the requirements and limitations of separator, as well as the advantages of functionalized separator are summarized and reviewed. Most importantly, the protection mechanisms and research advances of advanced functionalized separator are comprehensively discussed and summarized. Furthermore, the applications of functionalized separator in rechargeable lithium metal-based full cells are reviewed. Finally, the challenges and potential opportunities for the future development and rational design of functionalized separator are highlighted in rechargeable LMBs to obtain future research directions related to the significant strategy of constructing dendrite-free and stable LMBs.

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Recent advances in functionalized separator for dendrites-free and stable lithium metal batteries. / Zhang, Xiaojuan; Wu, Yu; Yu, Bo et al.
in: EcoEnergy, Jahrgang 2, Nr. 4, 20.12.2024, S. 549-598.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Zhang, X, Wu, Y, Yu, B, Hu, K, Zhang, P, Ding, F, Zhang, L, Chen, Y, Ou, JZ & Zhang, Z 2024, 'Recent advances in functionalized separator for dendrites-free and stable lithium metal batteries', EcoEnergy, Jg. 2, Nr. 4, S. 549-598. https://doi.org/10.1002/ece2.58
Zhang, X., Wu, Y., Yu, B., Hu, K., Zhang, P., Ding, F., Zhang, L., Chen, Y., Ou, J. Z., & Zhang, Z. (2024). Recent advances in functionalized separator for dendrites-free and stable lithium metal batteries. EcoEnergy, 2(4), 549-598. https://doi.org/10.1002/ece2.58
Zhang X, Wu Y, Yu B, Hu K, Zhang P, Ding F et al. Recent advances in functionalized separator for dendrites-free and stable lithium metal batteries. EcoEnergy. 2024 Dez 20;2(4):549-598. doi: 10.1002/ece2.58
Zhang, Xiaojuan ; Wu, Yu ; Yu, Bo et al. / Recent advances in functionalized separator for dendrites-free and stable lithium metal batteries. in: EcoEnergy. 2024 ; Jahrgang 2, Nr. 4. S. 549-598.
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abstract = "Abstract Lithium (Li) metal anode is considered the ?Holy grail? for the most promising next-generation rechargeable lithium metal batteries (LMBs) because of ultra-high theoretical specific capacity, ultra-low reduction potential and small density. However, uncontrolled lithium dendrite growth and inevitable side reaction seriously hindered the application of practical LMBs because of the deteriorating electrochemical performances and exacerbating the safety issues of LMBs. Thus, improving the electrochemical performances of LMBs by constructed of functionalized separator is promising for overcoming the above-mentioned challenges due to its' significantly advantages, such as enhancing mechanical and thermal stability, regulating the diffusion and migration of Li ions, homogenizing Li ion flux, forming protective layer on Li anode surfaces, etc. The relational investigations have significantly increased since 2020, while the comprehensive reviews on this research direction are relatively rare, especially in the detailed mechanism aspects. In this review, an overview in functionalized separator for stable LMBs is discussed in detail. Firstly, the current issues of LMBs are in-depth discussion and the general strategies are summarized. Subsequently, the requirements and limitations of separator, as well as the advantages of functionalized separator are summarized and reviewed. Most importantly, the protection mechanisms and research advances of advanced functionalized separator are comprehensively discussed and summarized. Furthermore, the applications of functionalized separator in rechargeable lithium metal-based full cells are reviewed. Finally, the challenges and potential opportunities for the future development and rational design of functionalized separator are highlighted in rechargeable LMBs to obtain future research directions related to the significant strategy of constructing dendrite-free and stable LMBs.",
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TY - JOUR

T1 - Recent advances in functionalized separator for dendrites-free and stable lithium metal batteries

AU - Zhang, Xiaojuan

AU - Wu, Yu

AU - Yu, Bo

AU - Hu, Kunpeng

AU - Zhang, Ping

AU - Ding, Fei

AU - Zhang, Lin

AU - Chen, Yuanfu

AU - Ou, Jian Zhen

AU - Zhang, Zhigang

N1 - Publisher Copyright: © 2024 The Author(s). EcoEnergy published by John Wiley & Sons Australia, Ltd on behalf of China Chemical Safety Association.

PY - 2024/12/20

Y1 - 2024/12/20

N2 - Abstract Lithium (Li) metal anode is considered the ?Holy grail? for the most promising next-generation rechargeable lithium metal batteries (LMBs) because of ultra-high theoretical specific capacity, ultra-low reduction potential and small density. However, uncontrolled lithium dendrite growth and inevitable side reaction seriously hindered the application of practical LMBs because of the deteriorating electrochemical performances and exacerbating the safety issues of LMBs. Thus, improving the electrochemical performances of LMBs by constructed of functionalized separator is promising for overcoming the above-mentioned challenges due to its' significantly advantages, such as enhancing mechanical and thermal stability, regulating the diffusion and migration of Li ions, homogenizing Li ion flux, forming protective layer on Li anode surfaces, etc. The relational investigations have significantly increased since 2020, while the comprehensive reviews on this research direction are relatively rare, especially in the detailed mechanism aspects. In this review, an overview in functionalized separator for stable LMBs is discussed in detail. Firstly, the current issues of LMBs are in-depth discussion and the general strategies are summarized. Subsequently, the requirements and limitations of separator, as well as the advantages of functionalized separator are summarized and reviewed. Most importantly, the protection mechanisms and research advances of advanced functionalized separator are comprehensively discussed and summarized. Furthermore, the applications of functionalized separator in rechargeable lithium metal-based full cells are reviewed. Finally, the challenges and potential opportunities for the future development and rational design of functionalized separator are highlighted in rechargeable LMBs to obtain future research directions related to the significant strategy of constructing dendrite-free and stable LMBs.

AB - Abstract Lithium (Li) metal anode is considered the ?Holy grail? for the most promising next-generation rechargeable lithium metal batteries (LMBs) because of ultra-high theoretical specific capacity, ultra-low reduction potential and small density. However, uncontrolled lithium dendrite growth and inevitable side reaction seriously hindered the application of practical LMBs because of the deteriorating electrochemical performances and exacerbating the safety issues of LMBs. Thus, improving the electrochemical performances of LMBs by constructed of functionalized separator is promising for overcoming the above-mentioned challenges due to its' significantly advantages, such as enhancing mechanical and thermal stability, regulating the diffusion and migration of Li ions, homogenizing Li ion flux, forming protective layer on Li anode surfaces, etc. The relational investigations have significantly increased since 2020, while the comprehensive reviews on this research direction are relatively rare, especially in the detailed mechanism aspects. In this review, an overview in functionalized separator for stable LMBs is discussed in detail. Firstly, the current issues of LMBs are in-depth discussion and the general strategies are summarized. Subsequently, the requirements and limitations of separator, as well as the advantages of functionalized separator are summarized and reviewed. Most importantly, the protection mechanisms and research advances of advanced functionalized separator are comprehensively discussed and summarized. Furthermore, the applications of functionalized separator in rechargeable lithium metal-based full cells are reviewed. Finally, the challenges and potential opportunities for the future development and rational design of functionalized separator are highlighted in rechargeable LMBs to obtain future research directions related to the significant strategy of constructing dendrite-free and stable LMBs.

KW - functional materials design

KW - functionalized separator

KW - lithium dendrite

KW - lithium metal anode

KW - lithium metal batteries

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U2 - 10.1002/ece2.58

DO - 10.1002/ece2.58

M3 - Article

VL - 2

SP - 549

EP - 598

JO - EcoEnergy

JF - EcoEnergy

SN - 2835-9380

IS - 4

ER -

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