Geometries and electronic properties of sphere-like (InN)(2n )(n = 6-27, 45, 54) nanoclusters are investigated by using density functional theory with the gradient corrected PBE functional and with relativistic effect being taken into account. Interestingly, with increasing the size of nanoclusters, the inner space, averaged radius, the HOMO-LUMO gaps, and the charge transfers of the optimized stable (InN)(2n) nanocages are generally increased, and the absorption spectra of (InN)(2n) nanocages vary from long wavelength to short wavelength (blue shift). Such phenomenon reflects indirectly the quantum confinement effect and the remarkable semiconductor-like behaviors. Particularly, the ionic bonds of surface atoms in nanosize (InN)(2n )(n = 6-27, 45, 54) cages become gradually dominating chemical bonding with increasing cage-size n, indicating that large-size (InN)(2n) nanocages have a trend to be ionic semiconductors. The calculated results are in good agreement with available theoretical and experimental data.

• 出版日期2018-5
• 单位中国科学技术大学; 上海电机学院