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Hydrogen storage in complex hydrides: past activities and new trends

Dematteis, Erika Michela; Amdisen, Mads B; Autrey, Tom; Barale, Jussara; Bowden, Mark E; Buckley, Craig E; Cho, Young Whan; Deledda, Stefano; Dornheim, Martin; de Jongh, Petra; Grinderslev, Jakob B; Gizer, Gökhan; Gulino, Valerio; Hauback, Bjørn C; Heere, Michael; Heo, Tae Wook; Humphries, Terry D; Jensen, Torben R; Kang, Shin Young; Lee, Young-Su; Li, Hai-Wen; Li, Sichi; Møller, Kasper T; Ngene, Peter; Orimo, Shin-ichi; Paskevicius, Mark; Polanski, Marek; Takagi, Shigeyuki; Wan, Liwen; Wood, Brandon C; Hirscher, Michael; Baricco, Marcello

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Authors

Erika Michela Dematteis

Mads B Amdisen

Tom Autrey

Jussara Barale

Mark E Bowden

Craig E Buckley

Young Whan Cho

Stefano Deledda

Professor MARTIN DORNHEIM MARTIN.DORNHEIM@NOTTINGHAM.AC.UK
THE LEVERHULME INTERNATIONAL PROFESSOR OF HYDROGEN STORAGE MATERIALS AND SYSTEMS

Petra de Jongh

Jakob B Grinderslev

Gökhan Gizer

Valerio Gulino

Bjørn C Hauback

Michael Heere

Tae Wook Heo

Terry D Humphries

Torben R Jensen

Shin Young Kang

Young-Su Lee

Hai-Wen Li

Sichi Li

Kasper T Møller

Peter Ngene

Shin-ichi Orimo

Mark Paskevicius

Marek Polanski

Shigeyuki Takagi

Liwen Wan

Brandon C Wood

Michael Hirscher

Marcello Baricco



Abstract

Intense literature and research efforts have focussed on the exploration of complex hydrides for energy storage applications over the past decades. A focus was dedicated to the determination of their thermodynamic and hydrogen storage properties, due to their high gravimetric and volumetric hydrogen storage capacities, but their application has been limited because of harsh working conditions for reversible hydrogen release and uptake. The present review aims at appraising the recent advances on different complex hydride systems, coming from the proficient collaborative activities in the past years from the research groups led by the experts of the Task 40 'Energy Storage and Conversion Based on Hydrogen' of the Hydrogen Technology Collaboration Programme of the International Energy Agency. An overview of materials design, synthesis, tailoring and modelling approaches, hydrogen release and uptake mechanisms and thermodynamic aspects are reviewed to define new trends and suggest new possible applications for these highly tuneable materials.

Citation

Dematteis, E. M., Amdisen, M. B., Autrey, T., Barale, J., Bowden, M. E., Buckley, C. E., Cho, Y. W., Deledda, S., Dornheim, M., de Jongh, P., Grinderslev, J. B., Gizer, G., Gulino, V., Hauback, B. C., Heere, M., Heo, T. W., Humphries, T. D., Jensen, T. R., Kang, S. Y., Lee, Y.-S., …Baricco, M. (2022). Hydrogen storage in complex hydrides: past activities and new trends. Progress in Energy, 4(3), Article 032009. https://doi.org/10.1088/2516-1083/ac7499

Journal Article Type Article
Acceptance Date May 30, 2022
Online Publication Date Jun 23, 2022
Publication Date Jun 23, 2022
Deposit Date Aug 5, 2024
Publicly Available Date Oct 14, 2024
Journal Progress in Energy
Electronic ISSN 2516-1083
Publisher IOP Publishing
Peer Reviewed Peer Reviewed
Volume 4
Issue 3
Article Number 032009
DOI https://doi.org/10.1088/2516-1083/ac7499
Keywords complex hydrides, amides, ammines, borohydrides, alanates, reactive hydride composites, borates
Public URL https://nottingham-repository.worktribe.com/output/34872201
Publisher URL https://iopscience.iop.org/article/10.1088/2516-1083/ac7499#Acknowledgments
Additional Information Article Title: Hydrogen storage in complex hydrides: past activities and new trends; Journal Title: Progress in Energy; Article Type: paper; Copyright Information: © 2022 The Author(s). Published by IOP Publishing Ltd; Date Received: 2021-12-23; Date Accepted: 2022-05-30; Online publication date: 2022-06-23

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