Metal Hydrides Volume 2
Materials and Technologies for Hydrogen-Based Energy Storage
- 1st Edition - January 1, 2026
- Imprint: Woodhead Publishing
- Editor: Volodymyr Yartys
- Language: English
- Paperback ISBN:9 7 8 - 0 - 4 4 3 - 4 4 8 7 3 - 7
- eBook ISBN:9 7 8 - 0 - 4 4 3 - 4 4 8 7 4 - 4
'Metal Hydrides: Materials and Technologies for Hydrogen-Based Energy Storage, volume 2' comprehensively describes the synthesis and rich chemistry of a vast variety of the most… Read more
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'Metal Hydrides: Materials and Technologies for Hydrogen-Based Energy Storage, volume 2' comprehensively describes the synthesis and rich chemistry of a vast variety of the most important group of hydrogen storage materials – metal hydrides. In addition to exploring tailored properties manipulated by tuning their composition, morphology, and structure, the book also presents the most important applications of metal hydrides, including hydrogen and heat storage systems, hydrogen compression, hydrogen generation, and use as electrode materials in rechargeable batteries. In this volume, an international team of renowned experts has contributed chapters covering three key areas: (a) Hydrides with advanced tailored properties achieved by appropriate processing, nanoscaling, chemical and structural optimization, and use of catalysts; (b) In situ and operando characterisation of the mechanism and kinetics of interactions in metal–hydrogen systems; (c) Prime applications in hydrogen-based energy storage. Solid state materials for hydrogen storage are covered in the companion book, 'Metal Hydrides: Materials and Technologies for Hydrogen-Based Energy Storage, volume 1.' Finally, a future outlook is presented that highlights the almost unlimited potential and possibilities offered by this exciting group of energy storage materials and their continuing development.
• Covers fundamental aspects of the interactions in metal–hydrogen systems by utilizing state-of-the-art computational and experimental studies
• Addresses all major groups of materials for hydrogen storage and generation – binary and ternary hydrides, deuterides and tritides, alanates, complex metal borohydrides, and materials for hydrolysis
• Describes synthesis and characterization techniques that allow researchers to probe the properties of bulk, thin-film, and nanoscale hydrides
• Presents various applications of metal hydrides in hydrogen-based energy systems, including hydrogen and heat storage systems, hydrogen compression, hydrogen generation by hydrolysis, and use of metal hydrides in rechargeable batteries
• Highlights the potential and possibilities offered by the use of metal hydrides in energy applications
• Addresses all major groups of materials for hydrogen storage and generation – binary and ternary hydrides, deuterides and tritides, alanates, complex metal borohydrides, and materials for hydrolysis
• Describes synthesis and characterization techniques that allow researchers to probe the properties of bulk, thin-film, and nanoscale hydrides
• Presents various applications of metal hydrides in hydrogen-based energy systems, including hydrogen and heat storage systems, hydrogen compression, hydrogen generation by hydrolysis, and use of metal hydrides in rechargeable batteries
• Highlights the potential and possibilities offered by the use of metal hydrides in energy applications
Researchers, engineers, and students working in materials science, renewable energy, electrochemistry, rechargeable batteries, and hydrogen energy
Section I. Hydrides with tailored properties
Chapter 1. Mechanochemical synthesis processes in metal-hydrogen systems
Chapter 2. Multiscale property manipulation of advanced functional materials by gas–solid reactions
Chapter 3. Thin-film hydrides
Section II. Structural characterisation of metal hydrides
Chapter 4. Metal hydrides studied by synchrotron XRD and total scattering
Chapter 5. Neutron diffraction studies of metal–hydrogen systems
Section III. Applications of metal hydrides
Chapter 6. Hydrogen storage systems
Chapter 7. Metal hydride hydrogen compressors
Chapter 8. Thermal energy storage
Chapter 9. Hydrogen generation by hydrolysis process
Chapter 10. Metal hydrides as negative electrodes of rechargeable batteries
Chapter 11. Boron-based hydrides as solid electrolytes: Towards all-solid batteries
Section IV. Summary and future outlook
Chapter 12. Future outlook of progress in hydrogen storage materials and technologies
Chapter 1. Mechanochemical synthesis processes in metal-hydrogen systems
Chapter 2. Multiscale property manipulation of advanced functional materials by gas–solid reactions
Chapter 3. Thin-film hydrides
Section II. Structural characterisation of metal hydrides
Chapter 4. Metal hydrides studied by synchrotron XRD and total scattering
Chapter 5. Neutron diffraction studies of metal–hydrogen systems
Section III. Applications of metal hydrides
Chapter 6. Hydrogen storage systems
Chapter 7. Metal hydride hydrogen compressors
Chapter 8. Thermal energy storage
Chapter 9. Hydrogen generation by hydrolysis process
Chapter 10. Metal hydrides as negative electrodes of rechargeable batteries
Chapter 11. Boron-based hydrides as solid electrolytes: Towards all-solid batteries
Section IV. Summary and future outlook
Chapter 12. Future outlook of progress in hydrogen storage materials and technologies
- Edition: 1
- Published: January 1, 2026
- Imprint: Woodhead Publishing
- Language: English
VY
Volodymyr Yartys
Volodymyr Yartys is a Professor of Materials Science and Hydrogen Technologies at the Norwegian Institute for Energy Technology, Kjeller, Norway, and Professor Emeritus at the Norwegian University of Science and Technology, Trondheim, Norway. He is an expert in hydrogen-based energy storage, and his research focuses on nanomaterials for energy storage, rechargeable batteries, hydrogen as an energy carrier, and new materials for hydrogen storage and battery applications.