Defect energies in CsCl and its solid solutions with KCl, RbCl, and CsBr

M. Natarajan; Bhanu Prakash; Cnr Rao

doi:10.1039/j19710002293

Defect energies in CsCl and its solid solutions with KCl, RbCl, and CsBr

Journal of the Chemical Society A Inorganic Physical Theoretical: 2293-2293

Article 1971 English

Abstract

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The formation energies of Schottky defects in the CsCl (Pm3m) and the NaCl (Fm3m) structures of CsCl are found to be 1·4 and 2·0 eV respectively. The ground-state interaction energies between Sr2+Cs+ and the V–Cs+ in the Pm3m and Fm3m phases are ca. 0·45 and 0·35 eV respectively. The cation migration energies in CsCl are affected by the incorporation of K+, Rb+ or Br–. The formation energy of Schottky defects in the solid solutions of CsCl with KCl or RbCl is low (1·4 eV) in the Pm3m phase, but attains a much higher value (2 eV) at compositions where the Fm3m structure gets stabilized.

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