State-of-the-Art and Progress in Metal-Hydrogen Systems

doi:10.3390/books978-3-7258-0358-3

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State-of-the-Art and Progress in Metal-Hydrogen Systems

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March 2024

186 pages

ISBN978-3-7258-0357-6 (Hardback)
ISBN978-3-7258-0358-3 (PDF)

https://doi.org/10.3390/books978-3-7258-0358-3

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This book is a reprint of the Special Issue State-of-the-Art and Progress in Metal-Hydrogen Systems that was published in

Chemistry & Materials Science

Summary

Metal hydrides are a continuously expanding and diverse class of materials with a variety of properties. This reprint presents selected, original, and recent research within advanced studies and the utilisation of metal-hydrogen systems. Novel metal hydrides are presented along with nanocomposites systems, which have been investigated as solid-state hydrogen storage materials. Some metal hydrides have demonstrated fast cationic conductivity and can act as promising battery materials and as novel types of solid-state ionic conductors. A wide range of metallic hydrides have also been investigated for hydrogen purification and compression. Detailed investigations of their physical properties quickly move the research towards demonstration and industrial utilisation. This reprint supports the development of hydrogen as a clean energy solution, including stationary and portable storage, along with a variety of related technologies.

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Keywords

hydrogen storage; metal hydride; volume expansion; stress concentration; silicone oil; structure; ionic conductivity; complex borohydride; mechanochemistry; scanning photoemission microscope; metal hydride; phase composition; first hydrogenation; TiFe alloy; palladium; Pd-based membrane; electroplating; hydrogen purification; rare-earth organometallic complexes; metathesis; yttrium phenoxide; lanthanum phenoxide; hydrogen storage; hydrogen storage; complex hydrides; nanoconfinement; borohydrides; porous carbons; proton conduction; barium zirconate; proton pair; limiting barrier; proton–tuple; hydrogen compression materials; hydrogen storage alloy; metal hydride hydrogen compressors; hydrogen storage and supply; kinetics; thermodynamics; crystal structures; metal hydride; composite; thermal conductivity; expanded natural graphite; five-membered chain anions; B-N-H compounds; mechanochemical synthesis; thermal dehydrogenation; hydrogen release; hydrogen storage materials; magnesium hydrides; borohydrides; liquid channels; kinetics; intermetallic hydrides; hydrogen atomic volume; Zr(Mo_xFe_1−x)₂ pseudobinary intermetallics; critical temperature of metal to hydride phase transition: hydrogen–hydrogen elastic interaction; elastic moduli; hydrogen storage materials; magnesium hydride; transition metal carbonitride; 2D materials; layered materials; hydrogen storage material; complex hydride; destabilized hydride; solid-state reaction; electrolyte; eutectic; n/a