Jianxin Zou, PhD, is Full Professor in the School of Materials Science and Engineering, Shanghai Jiao Tong University, China. He has previously worked in both Europe and North America, and has researched extensively into magnesium-based materials and related clean energy subjects. Yanna NuLi, PhD, is Professor in the School of Chemistry and Chemical Engineering, Shanghai Jiao Tong University, China. Her research focuses on rechargable magnesium batteries. Zhigang Hu, PhD, is Associate Professor in the School of Materials Science and Engineering, Shanghai Jiao Tong University, China. His research interestes include hydrogen storage materials and carbon capture technologies. Xi Lin, PhD, is Research Assistant Professor at Shanghai Jiao Tong University, China. His research concerns hydrogen storage materials and solid-state hydrogen storage systems. Qiuyu Zhang, PhD, is a Research Associate at Shanghai Jiao Tong University, China. Her research focuses hydrogen storage material and the applications in agriculture.
Inhaltsangabe
1 OVERVIEW 1.1 Introduction of Mg-based hydrogen and electric energy materials 1.2 Overview of Mg-based hydrogen storage materials and systems 1.3 Overview of Mg-ion batteries
2 HYDROGEN ABSORPTION/DESORPTION IN MG-BASED MATERIALS AND THEIR APPLICATIONS 2.1 The characterizations of Mg-based hydrogen storage materials 2.2 Methods for improving the hydrogen storage performance of Mg-based materials 2.3 Synthesis technologies for Mg-based hydrogen storage materials 2.4 Advanced characterization techniques 2.5 Fundamentals and applications of Mg-based hydrogen storage tanks
3 HYDROLYSIS OF MG-BASED HYDROGEN STORAGE MATERIALS 3.1 Hydrolysis processes of Mg/MgH2 3.2 Control of hydrolysis processes 3.3 Controllable hydrolysis systems
4 ELECTROLYTES FOR MG BATTERIES 4.1 Liquid electrolytes 4.2 Solid and quasi-solid state electrolytes
5 CATHODES AND ANODES FOR MG BATTERIES 5.1 Intercalation-type cathode materials 5.2 Conversion-type cathode materials 5.3 Organic cathodes 5.4 Anodes for Mg batteries
1 OVERVIEW 1.1 Introduction of Mg-based hydrogen and electric energy materials 1.2 Overview of Mg-based hydrogen storage materials and systems 1.3 Overview of Mg-ion batteries
2 HYDROGEN ABSORPTION/DESORPTION IN MG-BASED MATERIALS AND THEIR APPLICATIONS 2.1 The characterizations of Mg-based hydrogen storage materials 2.2 Methods for improving the hydrogen storage performance of Mg-based materials 2.3 Synthesis technologies for Mg-based hydrogen storage materials 2.4 Advanced characterization techniques 2.5 Fundamentals and applications of Mg-based hydrogen storage tanks
3 HYDROLYSIS OF MG-BASED HYDROGEN STORAGE MATERIALS 3.1 Hydrolysis processes of Mg/MgH2 3.2 Control of hydrolysis processes 3.3 Controllable hydrolysis systems
4 ELECTROLYTES FOR MG BATTERIES 4.1 Liquid electrolytes 4.2 Solid and quasi-solid state electrolytes
5 CATHODES AND ANODES FOR MG BATTERIES 5.1 Intercalation-type cathode materials 5.2 Conversion-type cathode materials 5.3 Organic cathodes 5.4 Anodes for Mg batteries
6 CONCLUSIONS AND OUTLOOK
7 ABBREVIATION LIST
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