Editorial for the special issue“Hydrogen Energy Production,Storage and Utilization”

作     者：Lixian Sun 

作者机构：Guest Editor Guilin University of Electronic TechnologyChina 

出 版 物：《Materials Reports(Energy)》 (材料导报（能源）（英文）)

年 卷 期：2024年第4卷第1期

页      面：1-2页

核心收录：

学科分类：081702[工学-化学工艺] 08[工学] 0817[工学-化学工程与技术] 

基　　金：The development and modification of high-performance hydrogen storage materials is key to developing solid hydrogen storage and hydrogen energy utilization in the future. Xiao and Chen et al. from Zhejiang University present a comprehensive overview of reported hydrogen storage isotope materials applied to hydrogen storage alloys (HSAs) and their modification methods for existing drawbacks. In the meantime  some constructive suggestions are put forward for further understanding of the properties and mechanism of hydrogen isotope storage alloys. Wang et al. from Nankai University summarize the recent progress in the thermodynamic and kinetics of MgH2  encompassing strategies such as alloying  nanoscaling  catalyst doping and composite system construction to enhance its hydrogen storage performance. Meanwhile  the thermodynamic changes induced by nanoscaling and the kinetic enhancements resulting from the doping of catalysts are emphasis discussed. It offers readers a clear perspective on efficient modification strategies of magnesium-based hydrogen storage materials for more sustainable applications in hydrogen energy. Zou et al. of Shanghai Jiao Tong University review the research advances of MXene-based catalysts and MXene supports for improving the hydrogen sorption properties of Mg/MgH2  focusing on the mechanisms with special emphases on thermodynamics  kinetics  and catalytic behaviors. Additionally  this review outlines the opportunities and challenges in the basic understanding of Mg-MXene-based composites by employing electron transfer and plenty of active surface sites 

主　　题：alloy Storage hydride 

摘      要：Hydrogen energy has emerged as a significant energy source for accomplishing energy transformation and achieving carbon *** production,storage and transportation are the key technologies to realize hydrogen energy application and carbon neutralization *** from the mature technologies of fossil fuel reforming and water electrolysis,new hydrogen production methods(such as solar photolysis,biomass conversion,thermochemical circulation,etc.)have garnered widespread attention and research *** lack of safe and efficient hydrogen storage and utilization technology for hydrogen fuel cell systems is the major obstacle to achieving hydrogen *** the past decades,global researchers have conducted extensive studies on enhancing the hydrogen storage performance of materials,such as alloy,metal hydride,complex hydride,carbon-based materials,etc.,as well as the technological development of fuel cell power generation systems using solid hydrogen storage materials as hydrogen storage *** themed issue entitled“Hydrogen Energy Production,Storage and Utilizationincludes 10 carefully selected papers that address the most recent developments in hydrogen production and storage materials,involving catalyst design,structure characterization,hydrogen ab-/desorption performance and mechanism,and fuel cell coupling system exploit.