Temporal and spatial imaging of hydrogen storage materials: Watching solvent and hydrogen desorption from aluminium hydride by transmission electron microscopy
Access Status
Fulltext not available
Authors
Beattie, S.
Humphries, Terry
Weaver, L.
Sean McGrady, G.
Date
2008Type
Journal Article
Metadata
Show full item recordCitation
Beattie, S. and Humphries, T. and Weaver, L. and Sean McGrady, G. 2008. Temporal and spatial imaging of hydrogen storage materials: Watching solvent and hydrogen desorption from aluminium hydride by transmission electron microscopy. Chemical Communications (37): pp. 4448-4450.
Source Title
Chemical Communications
DOI
ISSN
School
Department of Physics and Astronomy
Collection
Abstract
An in situ thermal desorption study of solvated aluminum hydride (alane) by transmission electron microscopy and selected area diffraction has permitted characterisation of the structural and morphological changes during desorption of solvent and hydrogen in real-time; this powerful technique for studying hydrogen storage materials complements several others already employed. © The Royal Society of Chemistry.
Related items
Showing items related by title, author, creator and subject.
-
Sheppard, Drew A (2008)Concerns over green house gas emissions and their climate change effects have lead to a concerted effort into environmental friendly technologies. One such emphasis has been on the implementation of the hydrogen economy. ...
-
Kowalczyk, Poitr; Tanaka, H.; Holyst, R.; Kaneko, K.; Ohmori, T.; Miyamoto, J. (2005)Grand canonical Monte Carlo (GCMC) simulations were used for the modeling of the hydrogen adsorption in idealized graphite slitlike pores. In all simulations, quantum effects were included through the Feynman and Hibbs ...
-
Murshidi, Julie Andrianny (2012)Concerns about the impact that fossil fuels have on the environment and their increasing price to the consumer have led to research being undertaken to evaluate and refine other energy carriers that will be comparable to ...