Surface oxidation for surface structural stability and electronic properties of InGaN nanowire photocathodes

In order to explore the effect of oxidized surface on properties of photocathodes, we study InGaN nanowires with oxygen adsorption oxidation and oxygen substitution oxidation by first principles. Oxidized surface formed by oxygen adsorption oxidation is more stable and difficult to clean because of its negative forming energy. Formation energy of oxygen substitution oxidation is positive. This results in the formation of oxides that are unstable. In addition, in oxygen substitution oxidation, the surface of nanowires is more easily oxidized. In band structure, oxygen adsorption will increase bandgap due to the weakening of surface state. Oxygen substitution will cause energy band to shift towards lower energy end. Conduction band splits and crosses Fermi level to form N-type semiconductor. Our calculation results show that surface oxidation is unfavorable to InGaN nanowire which will harm its performance. Oxygen-poor environment can limit surface oxidation of InGaN nanowires to some extent.