Journal
JOURNAL OF ALLOYS AND COMPOUNDS
Volume 408, Issue -, Pages 273-279Publisher
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2005.04.190
Keywords
hydrogen storage materials; intermetallics; neutron diffraction; crystal structure and symmetry
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The paper focuses on structural chemistry of novel intermetallic hydrides with unusual structural properties. In such anisotropic hydrides, a huge expansion proceeds in a sole crystallographic direction and leads to a dramatic differentiation of the properties of the hydrides along the direction of the expansion and normal to it. The behaviour of the anisotropic hydrides is dominated by the metal-hydrogen and hydrogen-hydrogen interactions in contrast to the conventional intermetallic hydrides where the metal-metal interactions are the most important ones. In sharp contrast to the known crystal structures of intermetallic hydrides, in anisotropic hydrides deuterium atoms do not fill initially existing interstices but, instead, attract rare earth atoms into their surrounding and form new D-occupied sites. This paper will summarise our recent research on the anisotropic hydrides with a particular focus on two groups of materials: (a) RENiIn-based deuterides (RE = rare earth metal) containing the shortest known separation of hydrogen atoms in the structures of metal hydrides and (b) RENi3-(CeNi3) and RE2Ni7-(La2Ni7)-based deuterides which develop unusually large (59-63%) expansion of the constituent RENi2 layers. (c) 2005 Elsevier B.V. All rights reserved.
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