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An ultralight, pulverization-free integrated anode toward lithium-less lithium metal batteries.


ABSTRACT: The high-capacity advantage of lithium metal anode was compromised by common use of copper as the collector. Furthermore, lithium pulverization associated with "dead" Li accumulation and electrode cracking deteriorates the long-term cyclability of lithium metal batteries, especially under realistic test conditions. Here, we report an ultralight, integrated anode of polyimide-Ag/Li with dual anti-pulverization functionality. The silver layer was initially chemically bonded to the polyimide surface and then spontaneously diffused in Li solid solution and self-evolved into a fully lithiophilic Li-Ag phase, mitigating dendrites growth or dead Li. Further, the strong van der Waals interaction between the bottommost Li-Ag and polyimide affords electrode structural integrity and electrical continuity, thus circumventing electrode pulverization. Compared to the cutting-edge anode-free cells, the batteries pairing LiNi0.8Mn0.1Co0.1O2 with polyimide-Ag/Li afford a nearly 10% increase in specific energy, with safer characteristics and better cycling stability under realistic conditions of 1× excess Li and high areal-loading cathode (4 milliampere hour per square centimeter).

SUBMITTER: Zhang CH 

PROVIDER: S-EPMC10980265 | biostudies-literature | 2024 Mar

REPOSITORIES: biostudies-literature

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An ultralight, pulverization-free integrated anode toward lithium-less lithium metal batteries.

Zhang Chao-Hui CH   Guo Yu-Jie YJ   Tan Shuang-Jie SJ   Wang Yu-Hao YH   Guo Jun-Chen JC   Tian Yi-Fan YF   Zhang Xu-Sheng XS   Liu Bo-Zheng BZ   Xin Sen S   Zhang Juan J   Wan Li-Jun LJ   Guo Yu-Guo YG  

Science advances 20240329 13


The high-capacity advantage of lithium metal anode was compromised by common use of copper as the collector. Furthermore, lithium pulverization associated with "dead" Li accumulation and electrode cracking deteriorates the long-term cyclability of lithium metal batteries, especially under realistic test conditions. Here, we report an ultralight, integrated anode of polyimide-Ag/Li with dual anti-pulverization functionality. The silver layer was initially chemically bonded to the polyimide surfac  ...[more]

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