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Thermodynamic stability and structure of cuprous chloride surfaces: a DFT investigation

Suleiman, I.A., Radny, M.W., Gladys, M.J., Smith, P.V., Mackie, J.C., Kennedy, E.M. and Dlugogorski, B.Z. (2015) Thermodynamic stability and structure of cuprous chloride surfaces: a DFT investigation. Physical Chemistry Chemical Physics, 17 (10). pp. 7038-7045.

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Density functional theory together with ab initio atomistic thermodynamics has been utilized to study the structures and stabilities of the low index CuCl surfaces. It is shown that the Cl-terminated structures are more stable than the Cu-terminated configurations, and that the defective CuCl(110)-Cu structure is more stable than the stoichiometric CuCl(110) surface. The equilibrium shape of a cuprous chloride nanostructure terminated by low-index CuCl surfaces has also been predicted using a Wulff construction. It was found that the (110) facets dominate at low chlorine concentration. As the chlorine concentration is increased, however, the contributions of the (100) and (111) facets to the Wulff construction also increase giving the crystal a semi-prism shape. At high chlorine concentration, and close to the rich limit, the (111) facets were found to be the only contributors to the Wulff construction, resulting in prismatic nanocrystals.

Item Type: Journal Article
Murdoch Affiliation(s): School of Engineering and Information Technology
Publisher: Royal Society of Chemistry
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