Open Access
Open access
Wiley
Advanced Science
volume 10 issue 30

Rational Materials and Structure Design for Improving the Performance and Durability of High Temperature Proton Exchange Membranes (HT‐PEMs)

Jingnan Song 1
Wutong Zhao 1
Libo Zhou 1
Hongjie Meng 1
Haibo Wang 2
Panpan Guan 1
Min Li 1
Yecheng Zou 3
Wei Feng 3
Ming Zhang 1
Lei Zhu 1
Ping He 2
Feng Liu 1
Yongming Zhang 1
1
 
2
 
Shanghai Maxim Fuel Cell Technology Company Shanghai 201401 P. R. China
3
 
State Key Laboratory of Fluorinated Functional Membrane Materials and Dongyue Future Hydrogen Energy Materials Company Zibo Shandong 256401 P. R. China
Publication typeJournal Article
Publication date2023-08-31
Wiley
scimago Q1
wos Q1
SJR3.775
CiteScore18.2
Impact factor14.1
ISSN21983844
Medicine (miscellaneous)
General Chemical Engineering
General Physics and Astronomy
General Materials Science
General Engineering
Biochemistry, Genetics and Molecular Biology (miscellaneous)
Abstract

Hydrogen energy as the next‐generation clean energy carrier has attracted the attention of both academic and industrial fields. A key limit in the current stage is the operation temperature of hydrogen fuel cells, which lies in the slow development of high‐temperature and high‐efficiency proton exchange membranes. Currently, much research effort has been devoted to this field, and very innovative material systems have been developed. The authors think it is the right time to make a short summary of the high‐temperature proton exchange membranes (HT‐PEMs), the fundamentals, and developments, which can help the researchers to clearly and efficiently gain the key information. In this paper, the development of key materials and optimization strategies, the degradation mechanism and possible solutions, and the most common morphology characterization techniques as well as correlations between morphology and overall properties have been systematically summarized.

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GOST Copy
Song J. et al. Rational Materials and Structure Design for Improving the Performance and Durability of High Temperature Proton Exchange Membranes (HT‐PEMs) // Advanced Science. 2023. Vol. 10. No. 30.
GOST all authors (up to 50) Copy
Song J., Zhao W., Zhou L., Meng H., Wang H., Guan P., Li M., Zou Y., Feng W., Zhang M., Zhu L., He P., Liu F., Zhang Y. Rational Materials and Structure Design for Improving the Performance and Durability of High Temperature Proton Exchange Membranes (HT‐PEMs) // Advanced Science. 2023. Vol. 10. No. 30.
RIS |
Cite this
RIS Copy
TY - JOUR
DO - 10.1002/advs.202303969
UR - https://doi.org/10.1002/advs.202303969
TI - Rational Materials and Structure Design for Improving the Performance and Durability of High Temperature Proton Exchange Membranes (HT‐PEMs)
T2 - Advanced Science
AU - Song, Jingnan
AU - Zhao, Wutong
AU - Zhou, Libo
AU - Meng, Hongjie
AU - Wang, Haibo
AU - Guan, Panpan
AU - Li, Min
AU - Zou, Yecheng
AU - Feng, Wei
AU - Zhang, Ming
AU - Zhu, Lei
AU - He, Ping
AU - Liu, Feng
AU - Zhang, Yongming
PY - 2023
DA - 2023/08/31
PB - Wiley
IS - 30
VL - 10
PMID - 37653601
SN - 2198-3844
ER -
BibTex
Cite this
BibTex (up to 50 authors) Copy
@article{2023_Song,
author = {Jingnan Song and Wutong Zhao and Libo Zhou and Hongjie Meng and Haibo Wang and Panpan Guan and Min Li and Yecheng Zou and Wei Feng and Ming Zhang and Lei Zhu and Ping He and Feng Liu and Yongming Zhang},
title = {Rational Materials and Structure Design for Improving the Performance and Durability of High Temperature Proton Exchange Membranes (HT‐PEMs)},
journal = {Advanced Science},
year = {2023},
volume = {10},
publisher = {Wiley},
month = {aug},
url = {https://doi.org/10.1002/advs.202303969},
number = {30},
doi = {10.1002/advs.202303969}
}