MATAR, Samir F.

doi:10.1016/j.cocom.2017.08.001

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MATAR, Samir F.
Institut de Chimie de la Matière Condensée de Bordeaux [ICMCB]

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Computational Condensed Matter. 2017, vol. 12, p. 19-24

Elsevier

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In the context of the need to recycle depleted uranium coming from nuclear waste, hydrogen absorption in uranium and mainly its alloys is an important solution. We here consider hydrogen insertion in UZr2 intermetallic leading to experimentally observed composition UZr2H6. Drastic changes are shown from density functional calculations to induce atom reordering within the metal substructures in the ground state. Particularly among different starting hypotheses for H sites, energy minimization is observed when the hydrogenated intermetallic undergoes metal substructures reordering with unmixed occupancy of Al (U) and B (Zr) sites in AlB2 type structure. Hydrogen is identified as covalently bonded within the plane of Zr metal, illustrated by anionic charged H−0.55 derived from Bader analysis of charge density. Hydrogen uptake leads to prevailing volume expansion effects versus chemical bonding ones, involving strong localization of uranium 5f states and increased magnetization versus the pristine intermetallic. Both the intermetallic and the ternary hydride are found ferromagnetic in the ground state.< Leer menos

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Uranium intermetallics

Hydrides

Magnetism

DFT

AIM

ASW

PAW-GGA

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First principles studies of hydrogen insertion effects on magnetic properties, bonding and structure reordering of UZr 2

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