Issue 9, 2021

Functional polyethylene glycol-based solid electrolytes with enhanced interfacial compatibility for room-temperature lithium metal batteries

Abstract

The interface issues of electrodes/solid-state electrolytes have been limiting the application of room-temperature lithium metal batteries. In situ polymerization technology achieved the realization of solid–solid ultra-conformal interface contacts. However, few efforts have been directed toward the precursor compatibility of electrodes and simultaneous chemical/electrochemical performances, which may directly cause high interface impedance, severe lithium dendrites and unsatisfactory stability of assembled cells. In this work, high-performance polyethylene glycol-based solid electrolytes with enhanced interfacial compatibility was prepared by an in situ copolymerization of functional polyethylene glycol and vinylene carbonate, in which vinylene carbonate tends to preferentially produce poly(vinylene carbonate) via anionic polymerization within solid electrolyte interface layers on the lithium metal surface to stabilize Li metal, and copolymerization with polyethylene glycol improves overall electrochemical performances. The SPE-assembled Li–Li symmetrical batteries stably run for over 2000 h; meanwhile, SPEs exhibit a high room-temperature ionic conductivity (0.4 mS cm−1), high lithium ion transference number (0.46) and wide electrochemical stability window (5.1 V). Resultant LiFePO4/Li metal batteries show a considerable rate capability (up to 5C) and a super-long cycling performance (>300 cycles) at 1C at room temperature. In addition, assembled cells with high-loading cathodes (5.5–10.5 mg cm−2) deliver high initial capacities and good capacity retentions. The simple and scalable approach may enable the industrialization and application of room-temperature lithium metal batteries.

Graphical abstract: Functional polyethylene glycol-based solid electrolytes with enhanced interfacial compatibility for room-temperature lithium metal batteries

Supplementary files

Article information

Article type
Research Article
Submitted
02 Jan 2021
Accepted
12 Mar 2021
First published
15 Mar 2021

Mater. Chem. Front., 2021,5, 3681-3691

Functional polyethylene glycol-based solid electrolytes with enhanced interfacial compatibility for room-temperature lithium metal batteries

Y. Zhang, S. Chen, Y. Chen and L. Li, Mater. Chem. Front., 2021, 5, 3681 DOI: 10.1039/D1QM00004G

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