Jonathan Collard scite author profile

The substoichiometric {111}, {110} and {100} surfaces of UO2 and PuO2 are studied computationally using two distinct yet related approaches based on density functional theory; the periodic electrostatic embedded cluster method (PEECM) and Hubbard-corrected periodic boundary condition DFT. First and second layer oxygen vacancy formation energies and geometries are presented and discussed; the energies are found to be substantially larger for UO2 vs PuO2, a result traced to the substantially more positive An(IV)/An(III) reduction potential for Pu, and hence relative ease of Pu(III) formation. For {110} and {100}, the significantly more stable dissociative water adsorption seen previously for stoichiometric surfaces [J. Nucl.

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Computational study of HCl adsorption on stoichiometric and oxygen vacancy PuO2 {111}, {110} and {100} surfaces

Collard

Steele

Kaltsoyannis

2020

Journal of Nuclear Materials

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Embedded Cluster Study of the Co-Adsorption of HCl and H2O on PuO2 Surfaces

Collard

Chen

Steele

et al. 2021

Journal of Nuclear Materials

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