Materials for Hydrogen-Based Energy Storage - Past, Recent Progress and Future Outlook

Michael Hirscher; Volodymir A. Yartys; Marcello Baricco; Jose Bellosta von Colbe; Didier Blanchard; Jr. Bowman; Darren P. Broom; Craig E. Buckley; Fei Chang; Ping Chen; Young Whan Cho; Jean-Claude Crivello; Fermin Cuevas; William I. F. David; Petra E. de Jongh; Roman V. Denys; Martin Dornheim; Michael Felderhoff; Yaroslav Filinchuk; George E. Froudakis; David M. Grant; Evan MacA. Gray; Bjorn C. Hauback; Teng He; Terry D. Humphries; Torben R. Jensen; Sangryun Kim; Yoshitsugu Kojima; Michel Latroche; Hai-Wen Li; Mykhaylo V. Lototskyy; Joshua W Makepeace; Kasper T. Moller; Lubna Naheed; Peter Ngene; Dag Noreus; Magnus Moe Nygard; Shin-Ichi Orimo; Mark Paskevicius; Luca Pasquini; Dorthe B. Ravnsbaek; M Veronica Sofianos; Terrence J. Udovic; Tejs Vegge; Gavin S. Walker; Colin J. Webb; Claudia Weidenthaler; Claudia Zlotea

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Materials for Hydrogen-Based Energy Storage - Past, Recent Progress and Future Outlook

Published

June 25, 2020

Author(s)

Michael Hirscher, Volodymir A. Yartys, Marcello Baricco, Jose Bellosta von Colbe, Didier Blanchard, Jr. Bowman, Darren P. Broom, Craig E. Buckley, Fei Chang, Ping Chen, Young Whan Cho, Jean-Claude Crivello, Fermin Cuevas, William I. F. David, Petra E. de Jongh, Roman V. Denys, Martin Dornheim, Michael Felderhoff, Yaroslav Filinchuk, George E. Froudakis, David M. Grant, Evan MacA. Gray, Bjorn C. Hauback, Teng He, Terry D. Humphries, Torben R. Jensen, Sangryun Kim, Yoshitsugu Kojima, Michel Latroche, Hai-Wen Li, Mykhaylo V. Lototskyy, Joshua W Makepeace, Kasper T. Moller, Lubna Naheed, Peter Ngene, Dag Noreus, Magnus Moe Nygard, Shin-Ichi Orimo, Mark Paskevicius, Luca Pasquini, Dorthe B. Ravnsbaek, M Veronica Sofianos, Terrence J. Udovic, Tejs Vegge, Gavin S. Walker, Colin J. Webb, Claudia Weidenthaler, Claudia Zlotea

Citation

Journal of Alloys and Compounds

Volume

827

Pub Type

Journals

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Keywords

complex hydrides, electrochemical storage, metallic hydrides

Materials

Citation

Hirscher, M. , Yartys, V. , Baricco, M. , Bellosta von Colbe, J. , Blanchard, D. , Bowman, J. , Broom, D. , Buckley, C. , Chang, F. , Chen, P. , Cho, Y. , Crivello, J. , Cuevas, F. , David, W. , de Jongh, P. , Denys, R. , Dornheim, M. , Felderhoff, M. , Filinchuk, Y. , Froudakis, G. , Grant, D. , Gray, E. , Hauback, B. , He, T. , Humphries, T. , Jensen, T. , Kim, S. , Kojima, Y. , Latroche, M. , Li, H. , Lototskyy, M. , Makepeace, J. , Moller, K. , Naheed, L. , Ngene, P. , Noreus, D. , Nygard, M. , Orimo, S. , Paskevicius, M. , Pasquini, L. , Ravnsbaek, D. , Sofianos, M. , Udovic, T. , Vegge, T. , Walker, G. , Webb, C. , Weidenthaler, C. and Zlotea, C. (2020), Materials for Hydrogen-Based Energy Storage - Past, Recent Progress and Future Outlook, Journal of Alloys and Compounds, [online], https://tsapps.nist.gov/publication/get_pdf.cfm?pub_id=928486 (Accessed April 24, 2024)

Created June 24, 2020, Updated October 12, 2021

Materials for Hydrogen-Based Energy Storage - Past, Recent Progress and Future Outlook

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