First-principles study on electronic structure and photoelectric properties of zinc blende InxGa1-xN with different in doping concentrations

Abstract

The first-principles ultra-soft pseudopotential plane wave based on density functional theory is used to calculate the electronic structure and photoelectric properties of zinc blende GaN and zinc blende InxGa1-xN with different In doping concentrations (x=0, 0.125, 0.25, 0.375, 0.5). It is shown that zinc blende GaN and its In-doped system are all direct bandgap semiconductor materials. With the increase of In doping concentration, the lattice constant of InxGa1-xN increases and the band gap decreases, the absorption spectrum shift to the red region. Therefore, it can be inferred that by adjusting the doping concentration of In, the light absorption range of InxGa1-xN can cover the entire solar spectrum, which means that InxGa1-xN can be worthy to fabricate photovoltaic devices such as full-spectrum solar cells.