Nickel oxide nanoparticles on the surface of the gallium arsenide nanocluster structure

Abstract: This paper describes how the efficiency of the active element of a solar cell of gallium arsenide (GaAs) is increased by nickel oxide nanoparticles. The simulated structure of a semiconductor GaAs compound with a diamond-like lattice shows how the intersphere space grid is generated based on the face-centered cubic lattice motif. A theoretically determined optimal concentration of nanoparticles on the surface and the corresponding values of the experimental data are shown. Studies of the electronic structure o… Show more

“…When they form mixed clusters, the Ga atoms become atoms of the faces, which require fewer bonds. All of them have filled cell structures, which we reported for III-V nanoparticles [5][6][7][8]. The obtained values of the discontinuities in the uniform increase and amplitude of the electronic densities ρ (Cu 2 O) n [9,10] in comparison with Ga m As n show that the interspaces are features of the material, and the nature of such bonds plays an important role.…”

Plasma Deposition of Gallium Arsenide Nanoclusters on a Silicon Matrix

“…When they form mixed clusters, the Ga atoms become atoms of the faces, which require fewer bonds. All of them have filled cell structures, which we reported for III-V nanoparticles [5][6][7][8]. The obtained values of the discontinuities in the uniform increase and amplitude of the electronic densities ρ (Cu 2 O) n [9,10] in comparison with Ga m As n show that the interspaces are features of the material, and the nature of such bonds plays an important role.…”

Plasma Deposition of Gallium Arsenide Nanoclusters on a Silicon Matrix