Special Issue

Topic: Chemical Technologies for Hydrogen Storage and Production
Guest Editors
Prof. Zhang-Hui Lu
College of Chemistry and Materials, Jiangxi Normal University, Nanchang, Jiangxi, China.
Prof. Zhen Huang
Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences, Guangzhou, Guangdong, China.
Prof. Hao Li
School of Chemical and Materials Engineering, Huizhou University, Huizhou, Guangdong, China.
Special Issue Introduction
Hydrogen, as a clean and renewable energy carrier, holds significant promise for the future of energy systems. Efficient storage and production of hydrogen are critical challenges that must be addressed to fully realize its potential. This Special Issue on "Chemical Technologies for Hydrogen Storage and Production" aims to gather the latest research and advancements in the chemical technologies that enable hydrogen energy solutions.
This collection will focus on a variety of topics, including but not limited to: Advanced Chemical Materials for Hydrogen Storage, Innovative Chemical Processes for Hydrogen Production, Catalysts and Reaction Mechanisms, Integration with Renewable Energy Sources, Theoretical and Computational Studies, Safety, Efficiency, and Economic Aspects.
Our objective is to showcase cutting-edge research that advances our understanding and capabilities in chemical technologies for hydrogen energy. By addressing both the fundamental and applied aspects of these technologies, we strive to contribute to the development of sustainable and efficient hydrogen energy systems.
This collection will focus on a variety of topics, including but not limited to: Advanced Chemical Materials for Hydrogen Storage, Innovative Chemical Processes for Hydrogen Production, Catalysts and Reaction Mechanisms, Integration with Renewable Energy Sources, Theoretical and Computational Studies, Safety, Efficiency, and Economic Aspects.
Our objective is to showcase cutting-edge research that advances our understanding and capabilities in chemical technologies for hydrogen energy. By addressing both the fundamental and applied aspects of these technologies, we strive to contribute to the development of sustainable and efficient hydrogen energy systems.
Keywords
Chemical technologies, hydrogen, clean energy, renewable energy, energy carrier, hydrogen storage, hydrogen production, advanced chemical materials, innovative chemical processes, Catalysts, reaction mechanisms, integration with renewable energy, theoretical studies, computational studies, economic aspects, sustainable energy systems, cutting-edge research, fundamental aspects, applied aspects
Submission Deadline
15 Jan 2025
Submission Information
For Author Instructions, please refer to https://www.oaepublish.com/energymater/author_instructions
For Online Submission, please login at https://www.oaecenter.com/login?JournalId=energymater&IssueId=energymater2501152123
Submission Deadline: 15 Jan 2025
Contacts: Dasia Luo, Assistant Eidtor, Assistant_Editor@energymaterj.com
Published Articles
A potential hydrogen isotope storage material Zr2Fe: deep exploration on phase transition behaviors and disproportionation mechanism
Open Access Article 7 Jan 2025
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