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 October 15, 2024)