Covalent organic frameworks with flexible side chains in hybrid PEMs enable highly efficient proton conductivity

Electrochemical hydrogen compression (EHC) is an emerging energy conversion technology. Proton exchange membranes (PEMs) with high proton conductivity and high mechanical strength are highly required to meet the practical requirements of EHC. Herein, ionic covalent organic frameworks (iCOFs) with tu...

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Bibliographic Details
Published in:Materials horizons 2024-01, Vol.11 (1), p.141-15
Main Authors: Liu, Ziwen, Pang, Xiao, Shi, Benbing, Xing, Na, Liu, Yawei, Lyu, Bohui, Zhang, Leilang, Kong, Yan, Wang, Sijia, Gao, Zhong, Xue, Rou, Jing, Tianyu, Liu, Changkun, Bai, Qinhuidan, Wu, Hong, Jiang, Zhongyi
Format: Article
Language:English
Subjects:
Energy conversion
Hydrogen
Hydrogen bonding
Hydrogen bonds
Ketones
Membranes
Proton conduction
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Summary:Electrochemical hydrogen compression (EHC) is an emerging energy conversion technology. Proton exchange membranes (PEMs) with high proton conductivity and high mechanical strength are highly required to meet the practical requirements of EHC. Herein, ionic covalent organic frameworks (iCOFs) with tunable side chains were synthesized and introduced into the sulfonated poly (ether ether ketone) (SPEEK) matrix to fabricate hybrid PEMs. In our membranes, the rigid iCOFs afford ordered proton conduction channels, whereas the flexible side chains on iCOFs afford abundant proton conduction sites, adaptive hydrogen bonding networks, and high local density short hydrogen bonds for highly efficient proton transport. Moreover, the hydrogen bond interactions between the side chains on iCOFs and the SPEEK matrix enhance the mechanical stability of membranes. As a result, the hybrid PEM acquires an enhanced proton conductivity of 540.4 mS cm −1 (80 °C, 100%RH), a high mechanical strength of 120.41 MPa, and a superior performance (2.3 MPa at 30 °C, 100%RH) in EHC applications. Electrochemical hydrogen compression (EHC) is an emerging energy conversion technology.
ISSN:2051-6347
2051-6355
DOI:10.1039/d3mh01604h