Electrode|electrolyte interface enhancement in quasi-solid-state zinc-air batteries through an anion conducting polymer electrolyte interlayer by <i>in situ</i> polymerization

TitleElectrode|electrolyte interface enhancement in quasi-solid-state zinc-air batteries through an anion conducting polymer electrolyte interlayer by in situ polymerization
Publication TypeJournal Article
Year of Publication2023
AuthorsKurian, M, Vijayakumar, V, Manna, N, Kanheerampockil, F, Bhat, S, Kurungot, S
JournalJournal of Materials Chemistry A
Volume11
Issue27
Pagination14776-14787
Date PublishedJUL
Type of ArticleArticle
ISSN2050-7488
Abstract

This work introduces a novel concept of electrode|electrolyte interface enhancement using an ultraviolet (UV) light-assisted in situ polymerization strategy to improve the performance of quasi-solid-state zinc-air batteries (ZABs). The suitability of the UV polymerization strategy to process a mechanically stable OH- conducting anion exchange polymer electrolyte membrane (AEPEM) reinforced by a glass fiber (GF) separator is also reported. The in situ polymerized ionomer-skin/interlayer (a thin anion-conducting polymer coating over the air-cathode of ZAB) acts as a buffer layer to narrow down the performance gap generally observed between ZABs possessing quasi-solid-state electrolytes and standard liquid electrolytes, respectively. For instance, when combined with the in situ polymerization strategy, a rechargeable ZAB (rZAB) based on an AEPEM-GF composite membrane delivered a high power density of 140 mW cm(-2), higher than that of the one without an in situ polymerized ionomer interlayer (120 mW cm(-2)). Notably, in a flexible rZAB configuration, this new strategy resulted in enhanced rate capability and cycling stability for 14 h at an operating current density of 2 mA cm(-2).

DOI10.1039/d3ta02320f
Type of Journal (Indian or Foreign)

Foreign

Impact Factor (IF)

11.9

Divison category: 
Physical and Materials Chemistry
Polymer Science & Engineering
Database: 
Web of Science (WoS)

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