期刊
ENERGY & ENVIRONMENTAL SCIENCE
卷 14, 期 7, 页码 4115-4124出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/d1ee00508a
关键词
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资金
- National Natural Science Foundation of China [51722204, 51972041, 52002053, U20A20244]
- Sichuan Science and Technology Project [2019JDRC0070]
- China Postdoctoral Science Foundation [2020M683280]
- Fundamental Research Fund for the Central Universities [ZYGX2020J004]
An artificial hybrid SEI layer composed of lithium-antimony alloy and lithium fluoride was constructed to reduce electron tunneling between the Li anode and SEI, resulting in uniform Li deposition and stable Li plating/stripping behaviors at an ultrahigh rate. This work uncovers the internal mechanism of Li+ transport within the SEI component, providing a pathway to stabilize the Li anode under practical high-rate conditions.
The solid electrolyte interphase (SEI) layer is pivotal for stable lithium (Li) metal batteries especially under a high rate. However, the mechanism of Li+ transport through the SEI has not been clearly elucidated to build robust Li anodes for practical Li metal batteries. Herein, an artificial hybrid SEI layer consisting of lithium-antimony (Li3Sb) alloy and lithium fluoride (LiF) is constructed to explore the ion diffusion behaviors within the SEI. As evidenced theoretically and experimentally, Li3Sb is identified as a superionic conductor for Li+ transport and as an interfacial stabilizer for the SEI layer while the LiF component with superior electron-blocking capability reduces the electron tunneling from the Li anode into the SEI, resulting in uniform dendrite-free Li deposition at the SEI/Li interface and stable Li plating/stripping behaviors at an ultrahigh rate of 20 mA cm(-2). A practical 325.28 W h kg(-1) pouch cell is well demonstrated under a high sulfur loading of 6 mg cm(-2) and a low electrolyte/sulfur ratio of 3 mu l mg(-1). This work uncovers the internal mechanism of Li+ transport within the SEI component, and provides an avenue to stabilize the Li anode under practical high-rate conditions.
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