Materials for hydrogen-based energy storage – past, recent progress and future outlook

Materials for hydrogen-based energy storage – past, recent progress and future outlook

© 2020 The Authors Globally, the accelerating use of renewable energy sources, enabled by increased efficiencies and reduced costs, and driven by the need to mitigate the effects of climate change, has significantly increased research in the areas of renewable energy production, storage, distrib...

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Bibliographic Details
Main Authors: Hirscher, M., Yartys, V.A., Baricco, M., Bellosta von Colbe, J., Blanchard, D., Bowman, R.C., Broom, D.P., Buckley, Craig, Chang, F., Chen, P., Cho, Y.W., Crivello, J.C., Cuevas, F., David, W.I.F., de Jongh, P.E., Denys, R.V., Dornheim, M., Felderhoff, M., Filinchuk, Y., Froudakis, G.E., Grant, D.M., Gray, E.M.A., Hauback, B.C., He, T., Humphries, Terry, Jensen, T.R., Kim, S., Kojima, Y., Latroche, M., Li, H.W., Lototskyy, M.V., Makepeace, J.W., Møller, K.T., Naheed, L., Ngene, P., Noréus, D., Nygård, M.M., Orimo, S.I., Paskevicius, Mark, Pasquini, L., Ravnsbæk, D.B., Veronica Sofianos, M., Udovic, T.J., Vegge, T., Walker, G.S., Webb, C.J., Weidenthaler, C., Zlotea, C.
Format: Journal Article
Language:English
Published: ELSEVIER SCIENCE SA 2020
Subjects:
Science & Technology
Physical Sciences
Technology
Chemistry, Physical
Materials Science, Multidisciplinary
Metallurgy & Metallurgical Engineering
Chemistry
Materials Science
Hydrogen storage materials
Porous materials
Liquid hydrogen carriers
Complex metal hydrides
Intermetallic hydrides
Magnesium based materials
Low dimensional hydrides
Electrochemical energy storage
Heat storage
Hydrogen energy systems
X-RAY-DIFFRACTION
TRANSITION-METAL HYDRIDES
IN-SITU NEUTRON
HIGH-ENTROPY ALLOYS
RE-BOROHYDRIDES RE
AMMONIA DECOMPOSITION CATALYSTS
NUCLEAR-MAGNETIC-RESONANCE
MEDIATED NITROGEN TRANSFER
DENSITY-FUNCTIONAL THEORY
RARE-EARTH R
Online Access:http://dx.doi.org/10.1016/j.jallcom.2019.153548
http://hdl.handle.net/20.500.11937/82257
Description
Summary:© 2020 The Authors Globally, the accelerating use of renewable energy sources, enabled by increased efficiencies and reduced costs, and driven by the need to mitigate the effects of climate change, has significantly increased research in the areas of renewable energy production, storage, distribution and end-use. Central to this discussion is the use of hydrogen, as a clean, efficient energy vector for energy storage. This review, by experts of Task 32, “Hydrogen-based Energy Storage” of the International Energy Agency, Hydrogen TCP, reports on the development over the last 6 years of hydrogen storage materials, methods and techniques, including electrochemical and thermal storage systems. An overview is given on the background to the various methods, the current state of development and the future prospects. The following areas are covered; porous materials, liquid hydrogen carriers, complex hydrides, intermetallic hydrides, electrochemical storage of energy, thermal energy storage, hydrogen energy systems and an outlook is presented for future prospects and research on hydrogen-based energy storage.

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