Abstract
In the present work detailed electronic, structural and optical properties of rutile-type SnO
2
are presented based on plane-wave ultrasoft pseudopotential technique within Density Functional Theory (DFT) and beyond using LDA, GGA, HSE03, HSE06, LDA(HSE03), LDA(HSE06), GGA(HSE03) and GGA(HSE06) respectively. The results show that the calculated lattice constants and volumes are very close to the experimental values. The bandgap obtained from LDA(HSE06) is quite close to the experimental values. Conversely, the bandgaps calculated by HSE03 and HSE06 are also close to 3.6 eV. However, density of state and optical properties calculated from each type of potential is mostly alike in qualitative investigations, and the numerical values have a little difference. The graphs have been plotted for eight exchange correlation potentials to depict the properties of SnO
2
in detail. These studies elucidate the first principles calculations of SnO
2
using various pseudopotentials and provide a complete library for their optimization.