Advances in offshore wind-power coupled seawater electrolysis for hydrogen production: mode selection, system innovation, and materials design

Guo, Hong; Ma, Zhuoya; Yu, Xiangtao; Li, Fei; Wang, Yuyi; Song, T.; Yang, Tao; Hou, Xinmei

doi:10.1039/d5gc05469a

articleGreen ChemistryJan 1, 2026Closed access

Advances in offshore wind-power coupled seawater electrolysis for hydrogen production: mode selection, system innovation, and materials design

HGHong Guo ZMZhuoya MaXYXiangtao YuFLFei Li YWYuyi Wang

Beijing Advanced Sciences and Innovation Center · University of Science and Technology Beijing · +1 more institution

Indexed incrossref

Abstract

The paper aims to offer systematic guidance and innovative insights for the rational design of integrated systems encompassing renewable energy coupling, electrolytes, electrodes, membrane materials, and hydrogen storage solutions.

Citation impact

4

total citations

FWCI: 19.61
Percentile: 99%
References: 149

Too recent for citation history.

Authors

8

HG
Hong Guo
Beijing Advanced Sciences and Innovation Center, University of Science and Technology Beijing
ZM
Zhuoya Ma
Beijing Advanced Sciences and Innovation Center, University of Science and Technology Beijing
XY
Xiangtao YuCorresponding
Beijing Advanced Sciences and Innovation Center, University of Science and Technology Beijing
FL
Fei Li
Beijing Advanced Sciences and Innovation Center, University of Science and Technology Beijing
YW
Yuyi Wang
Beijing Advanced Sciences and Innovation Center, University of Science and Technology Beijing

Topics & keywords

Topics

Keywords

Submarine pipeline
Electrolysis
Hydrogen
Renewable energy
Rational design
Seawater
Electrolysis of water
Energy storage

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