DFT study of intrinsic and induced p-type conductivity of ZnO material
Abstract:
Density functional theory and generalized gradient approximation including a Hubbard-like term was used in the present work to analyse p-type electrical conductivity as well as the switch of n-type → p-type conductivity in the ZnO materials. Results on atomic shifts indicate significance of Coulomb electrostatic interaction in finding the equilibrium state of the system. It is shown that the p-type electrical conductivity could be obtained by the N impurity doping into the n-type ZnO samples and also by considering zinc vacancy defect in otherwise pure ZnO crystal. Computed concentrations of free-carriers for different samples are compared to the available experimental data.
Año de publicación:
2017
Keywords:
- P-type
- N-type
- Zinc vacancy
- ZnO material
- density functional theory
- Electrical conductivity
- Nitrogen doping
Fuente:
scopus
googleTipo de documento:
Article
Estado:
Acceso restringido
Áreas de conocimiento:
- Ciencia de materiales
- Ciencia de materiales
Áreas temáticas:
- Cristalografía
- Ingeniería y operaciones afines
- Química física
