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Metal Hydrides for Hydrogen-Based Energy Storage, Volume 2. Applications. Woodhead Publishing Series in Electronic and Optical Materials

  • Book

  • December 2025
  • Elsevier Science and Technology
  • ID: 6250626

Metal Hydrides for Hydrogen-Based Energy Storage, Volume 2: Applications comprehensively describes the applications of the most important group of hydrogen storage materials: metal hydrides. The book is one of a pair of companion volumes, with the other being Metal Hydrides for Hydrogen-Based Energy Storage, Volume 1: Fundamentals.

In Volume 2, an international team of renowned experts explores the applications of solid state materials for hydrogen storage. The content covers mechanochemical synthesis processes in metal-hydrogen systems; multiscale property manipulation of advanced functional materials by gas-solid reactions; thin-film metal hydrides; metal hydrides studied by synchrotron XRD and total scattering; neutron diffraction studies of metal-hydrogen systems; hydrogen storage systems; metal hydride hydrogen compressors; hydride-based thermal energy storage; hydrogen generation by hydrolysis process; metal hydrides as negative electrodes of rechargeable batteries; boron-based hydrides as solid electrolytes used in all-solid batteries; and the future outlook of progress in hydrogen storage materials and technologies.

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Table of Contents

Section I. Hydrides with tailored properties
1. Mechanochemical synthesis processes in metal-hydrogen systems
2. Multiscale property manipulation of advanced functional materials by gas-solid reactions
3. Thin-film hydrides

Section II. Structural characterisation of metal hydrides
4. Metal hydrides studied by synchrotron XRD and total scattering
5. Neutron diffraction studies of metal-hydrogen systems

Section III. Applications of metal hydrides
6. Hydrogen storage systems
7. Metal hydride hydrogen compressors
8. Hydride-based thermal energy storage
9. Hydrogen generation by hydrolysis process
10. Metal hydrides as negative electrodes of rechargeable batteries
11. Boron-based hydrides as solid electrolytes: Towards all-solid batteries

Section IV. Summary and future outlook
12. Future outlook of progress in hydrogen storage materials and technologies

Authors

Volodymyr Yartys Professor of Materials Science and Hydrogen Technologies, Norwegian Institute for Energy Technology, Kjeller, Norway and Professor Emeritus, Norwegian University of Science and Technology, Trondheim, Norway. 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.