Versatile Asymmetric Separator with Dendrite‐Free Alloy Anode Enables High‐Performance Li–S Batteries

Wenqi Yan; Jin‐Lin Yang; Xiaosong Xiong; Lijun Fu; Yuhui Chen; Zhaogen Wang; Yusong Zhu; Jian‐Wei Zhao; Tao Wang; Yuping Wu

doi:10.1002/advs.202202204

Advanced Science (Sep 2022)

Versatile Asymmetric Separator with Dendrite‐Free Alloy Anode Enables High‐Performance Li–S Batteries

Wenqi Yan,
Jin‐Lin Yang,
Xiaosong Xiong,
Lijun Fu,
Yuhui Chen,
Zhaogen Wang,
Yusong Zhu,
Jian‐Wei Zhao,
Tao Wang,
Yuping Wu

Affiliations

Wenqi Yan: State Key Laboratory of Materials‐oriented Chemical Engineering Institute of Advanced Materials (IAM) and School of Energy Science and Engineering Nanjing Tech University Nanjing 211816 P. R. China
Jin‐Lin Yang: School of Physical and Mathematical Sciences Nanyang Technological University Singapore 637371 Singapore
Xiaosong Xiong: State Key Laboratory of Materials‐oriented Chemical Engineering Institute of Advanced Materials (IAM) and School of Energy Science and Engineering Nanjing Tech University Nanjing 211816 P. R. China
Lijun Fu: State Key Laboratory of Materials‐oriented Chemical Engineering Institute of Advanced Materials (IAM) and School of Energy Science and Engineering Nanjing Tech University Nanjing 211816 P. R. China
Yuhui Chen: State Key Laboratory of Materials‐oriented Chemical Engineering Institute of Advanced Materials (IAM) and School of Energy Science and Engineering Nanjing Tech University Nanjing 211816 P. R. China
Zhaogen Wang: State Key Laboratory of Materials‐oriented Chemical Engineering Institute of Advanced Materials (IAM) and School of Energy Science and Engineering Nanjing Tech University Nanjing 211816 P. R. China
Yusong Zhu: State Key Laboratory of Materials‐oriented Chemical Engineering Institute of Advanced Materials (IAM) and School of Energy Science and Engineering Nanjing Tech University Nanjing 211816 P. R. China
Jian‐Wei Zhao: Shenzhen HUASUAN Technology Co. Ltd Shenzhen 518055 P. R. China
Tao Wang: School of Energy and Environment Southeast University Nanjing 211189 P. R. China
Yuping Wu: State Key Laboratory of Materials‐oriented Chemical Engineering Institute of Advanced Materials (IAM) and School of Energy Science and Engineering Nanjing Tech University Nanjing 211816 P. R. China

DOI: https://doi.org/10.1002/advs.202202204
Journal volume & issue: Vol. 9, no. 25
pp. n/a – n/a

Abstract

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Abstract Lithium–sulfur batteries (LSBs) with extremely‐high theoretical energy density (2600 Wh kg−1) are deemed to be the most likely energy storage system to be commercialized. However, the polysulfides shuttling and lithium (Li) metal anode failure in LSBs limit its further commercialization. Herein, a versatile asymmetric separator and a Li‐rich lithium–magnesium (Li–Mg) alloy anode are applied in LSBs. The asymmetric separator is consisted of lithiated‐sulfonated porous organic polymer (SPOP‐Li) and Li6.75La3Zr1.75Nb0.25O12 (LLZNO) layers toward the cathode and anode, respectively. SPOP‐Li serves as a polysulfides barrier and Li‐ion conductor, while the LLZNO functions as an “ion redistributor”. Combining with a stable Li–Mg alloy anode, the symmetric cell achieves 5300 h of Li stripping/plating and the modified LSBs exhibit a long lifespan with an ultralow fading rate of 0.03% per cycle for over 1000 cycles at 5 C. Impressively, even under a high‐sulfur‐loading (6.1 mg cm−2), an area capacity of 4.34 mAh cm−2 after 100 cycles can still be maintained, demonstrating high potential for practical application.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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