Indexed by:Journal Article

Date of Publication:2018-01-01

Journal:IONICS

Included Journals:Scopus、EI、SCIE

Volume:24

Issue:1

Page Number:189-199

ISSN:0947-7047

Key Words:Anion exchange membrane; Highly branched side chain; Free volume; Conductivity; Robustness

Abstract:As a key component of alkali anion exchange membrane fuel cells, the anion exchange membrane (AEM) needs to have high ionic conductivity and good stability. Herein, highly branched side chain grafted polysulfone AEMs are designed and fabricated via macromolecule-initiated atom transfer radical polymerization of chloromethyl styrene. The highly branched side chain results in increased free volume in the AEM. As a result, the membrane shows significantly improved hydroxide conductivity relative to its un-branched counterpart membrane. Furthermore, the highly branched side chain renders the membrane with better anti-swelling property and improved alkaline stability. These results demonstrate that constructing highly branched side chain architecture is an effective strategy for fabricating AEMs with high conductivity and stability.