| Literature DB >> 31588648 |
Tong Liu1,2, Xi-Lan Feng3, Xin Jin3, Ming-Zhe Shao3, Yu-Tong Su3, Yu Zhang3,4, Xin-Bo Zhang1,2.
Abstract
The flexible Li-air battery (FLAB) with ultrahigh energy density is a hopeful candidate for flexible energy storage devices. However, most current FLAB operate in a pure oxygen atmosphere, which is limited by safety and corrosion issues from the metallic lithium anode and has thus greatly impeded the application of FLAB. Now, inspired by the protection effect of the umbrella, a stable hydrophobic composite polymer electrolyte (SHCPE) film with high flexibility, hydrophobicity, and stability was fabricated to protect the lithium anode. The SHCPE mitigated lithium corrosion and improved the capacity, rate performance, and cycle life (from 24 cycles to 95 cycles) of a battery in the ambient air. Based on the protection of SHCPE and the catalysis of MnOOH, the prepared pouch-type FLAB displayed high flexibility, stable performances, long cycling life (180 cycles), and excellent safety; the battery can bear soaking in water, high temperature, and nail penetration.Entities:
Keywords: Li-air batteries; composite electrolytes; flexible batteries; lithium metal anodes; safety
Year: 2019 PMID: 31588648 DOI: 10.1002/anie.201911229
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336