Recent Advancements in Green Hydrogen Production through Water Electrolysis Technologies

A special issue of Hydrogen (ISSN 2673-4141).

Deadline for manuscript submissions: closed (1 November 2024) | Viewed by 648

Special Issue Editors


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Guest Editor
1. Department of Mechanical Engineering, Advanced Institute of Manufacturing with High-Tech Innovations, National Chung Cheng University, Chiayi 621301, Taiwan
2. Australian Center for Sustainable Development Research and Innovation (ACSDRI), Unit 36/21 South Tce, Adelaide, SA 5000, Australia
Interests: 2D MXene composites; electrocatalysis; supercapacitors; Alkaline water electrolyzers
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Guest Editor
Department of Physics, Kalasalingam Academy of Research and Education, Krishnankoil 626126, India
Interests: supercapacitor; batteries; biophysics; applied spectroscopy and computational modelling

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Guest Editor
Research Centre for Solar Energy, Department of Engineering Physics, College of Engineering, Koneru Lakshmaiah Education Foundation, Green Fields, Vaddeswaram, Guntur 522502, Andhra Pradesh, India
Interests: hydrogen generation; thermal engineering; nano technology; solar energy

Special Issue Information

Dear Colleagues,

In recent years, there has been a significant focus on the development of renewable and environmentally friendly electrochemical energy storage and conversion technologies due to the escalating global energy demands. One promising method to produce hydrogen as a clean fuel is through water splitting, which integrates various renewable energy sources, offers high specific energy, is eco-friendly, and fulfills the global energy demand. The present low-temperature water electrolysis techniques are primarily classified into alkaline water electrolysis (AWE), anion exchange membrane (AEM) electrolysis, and proton exchange membrane (PEM) electrolysis. The efficiency and durability of these water electrolysis technologies, as well as their capital and operational costs for industrial applications, are heavily influenced by catalysts and electrode fabrication. Key factors such as morphology, conductivity, and surface chemistry properties have been identified as significant determinants of the overall water splitting reactions.

This open-access Special Issue aims to compile original research, reviews, research prospects, and comprehensive state-of-the-art articles on the latest advancements in water electrolysis technologies. The issue will focus on novel synthetic approaches, innovative electrode materials, and unique device fabrication techniques for supercapacitor applications. The primary objective of this Special Issue is to present the most recent cutting-edge innovations in water electrolysis technologies. Submissions may cover themes including, but not limited to:

  1. Bifunctional electrocatalysts for overall water splitting;
  2. Device or system design for water splitting;
  3. Composite anion exchange membranes for water electrolyzer;
  4. Anion exchange membrane for fuel cells and water electrolysis.

Dr. Karthik Kannan
Dr. Krishnamoorthy Gurushankar
Dr. Shanmugan Sengottain
Guest Editors

Manuscript Submission Information

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Keywords

  • electrocatalysts
  • hybrid structure
  • hydrogen evolution reaction (HER)
  • oxygen evolution reaction (OER)
  • water splitting
  • green hydrogen production

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Published Papers

There is no accepted submissions to this special issue at this moment.
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