Exploring properties of hyperbranched polymers in anion exchange membranes for fuel cells and its potential integration for water electrolysis:A review  

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作  者:Tamilazhagan Palanivel Mohamed Mamlouk Bruno G.Pollet Rajangam Vinodh 

机构地区:[1]Green Hydrogen Lab(GH2Lab),Institute for Hydrogen Research(IHR),Universitédu QuébecàTrois-Rivières(UQTR),3351 Boulevard des Forges,Trois-Rivières,QC G9A 5H7,Canada [2]School of Engineering,Newcastle University,Merz Court,NE17RU,United Kingdom

出  处:《Journal of Energy Chemistry》2025年第3期670-702,共33页能源化学(英文版)

基  金:UKRI financial support under grant number EP/Y026098/1 for Global Hydrogen Production Technologies(HyPT)Center。

摘  要:Anion-exchange membrane water electrolysers(AEMWEs)and fuel cells(AEMFCs)are critical technologies for converting renewable resources into green hydrogen(H_(2)),where anion-exchange membranes(AEMs)play a vital role in efficiently transporting hydroxide ions(OH^(-))and minimizing fuel crossover,thus enhancing overall efficiency.While conventional AEMs with linear,side-chain,and block polymer architectures show promise through functionalization,their long-term performance remains a concern.To address this,hyperbranched polymers offer a promising alternative due to their three-dimensional structure,higher terminal functionality,and ease of functionalization.This unique architecture provides interconnected ion transport pathways,fractional free volume,and enhanced long-term stability in alkaline environments.Recent studies have achieved conductivities as high as 304.5 mS cm^(-1),attributed to their improved fractional free volume and microphase separation in hyperbranched AEMs.This review explores the chemical,mechanical,and ionic properties of hyperbranched AEMs in AEMFCs and assesses their potential for application in AEMWEs.Strategies such as blending and structural functionalisation have significantly improved the properties by promoting microphase separation and increasing the density of cationic groups on the polymer surface.The review provides essential insights for future research,highlighting the challenges and opportunities in developing high-performance hyperbranched AEMs to advance hydrogen energy infrastructure.

关 键 词:HYDROGEN Hyperbranched anion exchange membrane Anion exchange membrane fuel cell Alkaline stability Micropha seseparation Fractional free volume Anion exchange membrane water electrolysers 

分 类 号:O63[理学—高分子化学]

 

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