Metal (boro-) hydrides for high energy density storage and relevant emerging technologies

Metal (boro-) hydrides for high energy density storage and relevant emerging technologies

The current energy transition imposes a rapid implementation of energy storage systems with high energy density and eminent regeneration and cycling efficiency. Metal hydrides are potential candidates for generalized energy storage, when coupled with fuel cell units and/or batteries. An overview of...

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Bibliographic Details
Published in:International journal of hydrogen energy Vol. 45; no. 58; pp. 33687 - 33730
Main Authors: Bannenberg, L.J., Heere, M., Benzidi, H., Montero, J., Dematteis, E.M., Suwarno, S., Jaroń, T., Winny, M., Orłowski, P.A., Wegner, W., Starobrat, A., Fijałkowski, K.J., Grochala, W., Qian, Z., Bonnet, J.-P., Nuta, I., Lohstroh, W., Zlotea, C., Mounkachi, O., Cuevas, F., Chatillon, C., Latroche, M., Fichtner, M., Baricco, M., Hauback, B.C., El Kharbachi, A.
Format: Journal Article
Language:English
Published: Elsevier Ltd 27-11-2020
Elsevier
Subjects:
Chemical Sciences
Condensed Matter
Cristallography
Electrochemical energy storage
Hydrogen sensors
Hydrogen storage
Inorganic chemistry
Material chemistry
Materials Science
Metal borohydrides
Metal hydrides
Physics
Metal hydrides
Hydrogen storage
Hydrogen sensors
Metal borohydrides
Electrochemical energy storage
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Summary:The current energy transition imposes a rapid implementation of energy storage systems with high energy density and eminent regeneration and cycling efficiency. Metal hydrides are potential candidates for generalized energy storage, when coupled with fuel cell units and/or batteries. An overview of ongoing research is reported and discussed in this review work on the light of application as hydrogen and heat storage matrices, as well as thin films for hydrogen optical sensors. These include a selection of single-metal hydrides, Ti–V(Fe) based intermetallics, multi-principal element alloys (high-entropy alloys), and a series of novel synthetically accessible metal borohydrides. Metal hydride materials can be as well of important usefulness for MH-based electrodes with high capacity (e.g. MgH2 ~ 2000 mA h g−1) and solid-state electrolytes displaying high ionic conductivity suitable, respectively, for Li-ion and Li/Mg battery technologies. To boost further research and development directions some characterization techniques dedicated to the study of M-H interactions, their equilibrium reactions, and additional quantification of hydrogen concentration in thin film and bulk hydrides are briefly discussed. [Display omitted] •High hydrogen storage capacity can be reached in metal (boro)hydrides.•Selected intermetallics may lead to an efficient stationary energy storage.•Novel metal borohydrides with varied properties are synthetically made available.•Optical sensors based on MH are paving the way for accurate hydrogen sensing.•High energy density all-solid-state MH-batteries are predicted compared to oxides.
ISSN:0360-3199
1879-3487
DOI:10.1016/j.ijhydene.2020.08.119