Z1, center orientations and adsorption of atomic halogens at the (001) surfaces of Alkaili Chloride Crystals: DFT Calculations.
الملخص
An attempt has been made to examine the relative stabilities of Z, center orientations at the surfaces of
Be2+, Mg2+ and Ca2+ doped LiCl, NaCl and KC1 ionic crystals as well as the effects of Z, center on the
adsorption of atomic halogens (F, Cl, Br, I and At) using an embedded cluster model and density functional
theory calculations. The embedded clusters were terminated by partial ionic charges that make the
Coulomb potentials at the central surface sites equal to the Madelung potentials of the host.surfaces. While
the linear orientations of the Be2+ doped surfaces were more stable than the non linear orientations, the non
linear orientations of Mg2+ and Ca2+ doped surfaces were more stable than the linear orientations. The Z,
center is suggested to be an F center strongly perturbed by a neighboring monovalent cation vacancy and
almost independent on the position of the divalent cation impurity. The relative stabilities were neither
dependent on the type of the divalent cation impurity nor the type of the monovalent hdst cation. The Z,
center changes the nature of atomic halogen adsorption from physical adsorption to; chemical adsorption
and the adsorption energies are directly proportional to the electronegativity of the halogen and the effec¬
tive nuclear charge of the host cation. The spin pairing mechanism plays the dominant role in the course
of adsorbate-substrate interactions, and the surfaces can be made semiconducting by Zt center imperfec¬
tion.
DOI/handle
http://hdl.handle.net/10576/9934المجموعات
- مجلة جامعة قطر للعلوم - [من 1981 الى 2007] [770 items ]