Abstract
In this work we study the structural, energetic and electronic properties of the pure nanoparticles of silver (Ag) and gold (Au) and their core-shell with total number of atoms ranging from 147 to 923 in cube-octahedral shape. We also investigated the adsorption of the methanethiol molecule (SCH4) in the coordination sites of these nanoparticles, analyzing, among other things, the influence of dispersion(van der Waals) interactions. Our simulations are performed using first principles theoretical calculations within of the Density Functional Theory (DFT) framework, described in terms of the Generalized Gradient Approximation (GGA), and by using Ultra-Soft Pseudo-potentials (USPP). We conclude that the largest pure nanoparticles and core-shell have a more spherical surface and their formation energies tend to formation energies of bare surfaces [001] and [111] and bulks of Ag and Au. A single layer of gold or silver shell already determines the properties and energetic behavior of the nanoparticles. The inclusion of van der Waals’ dispersion interaction in the calculations makes uniform, in certain way, the atomic displacement patterns surfaces of the nanoparticles and energetic behavior of core-shell, without change the form of the density of states. The adsorption of methanethiol molecule on the surface of the Ag and Au pure nanoparticles and their core-shell was analyzed and we verified that it almost does not disturb the electronic states of the nanoparticles and their molecular structure is preserved. In the largest nanoparticles we checking only one pattern of adsorption independent of the number of layers shell in the core-shell.
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