Artículos de revistas
Modeling equilibrium concentrations of Bjerrum and molecular point defects and their complexes in ice I(h)
Registro en:
Journal Of Chemical Physics. Amer Inst Physics, v. 128, n. 16, 2008.
0021-9606
WOS:000255456300043
10.1063/1.2902280
Autor
de Koning, M
Antonelli, A
Institución
Resumen
We present a model for the determination of the thermal equilibrium concentrations of Bjerrum defects, molecular point defects, and their aggregates in ice I(h). First, using a procedure which minimizes the free energy of an ice crystal with respect to the numbers of defect species, we derive a set of equations for the equilibrium concentrations of free Bjerrum and point defects, as well their complexes. Using density-functional-theory calculations, we then evaluate the binding energies of Bjerrum-defect/vacancy and Bjerrum-defect/interstitial complexes. In contrast to the complexes which involve the molecular vacancy, the results suggest that the molecular interstitial binds preferentially to the D-type Bjerrum defect. Using both theoretical binding and formation free energies as well as the available experimental data, we find that the preferential binding and the substantial presence of the interstitial as the predominant point defect in ice I(h) may lead to conditions in which the number of free D defects becomes considerably smaller than that of free L defects. Such a scenario could possibly be involved in the experimentally observed inactivity of D-type Bjerrum defects in the electrical properties of ice I(h). (c) 2008 American Institute of Physics. 128 16