Abstract
Ab initio calculations of ZnO nanowires (NW) were performed using density functional theory within LDA-1/2, to account for the excited states energies. The effects of hydrogenpassivated and non-passivated nanowires in a range of diameters were studied. For passivated cases it was obtained a band gap of 5.5 eV for the thinnest wire (∼0.6 nm thick) and 4.0 eV for the thickest NW (∼1.6 nm) (and similar to bulk for the non-passivated). The LDA confinement was found to be superestimated if compared to LDA-1/2, which also predicts experimental band gaps of ZnO nanowires with excellent precision.
Keywords: Band gap, nanowires, quasiparticle gap, self-energy, ZnO, LDA-1/2.
Graphical Abstract
Call for Papers in Thematic Issues
Nanotechnology for Energy Harness and Material Development
The energy industry is one of the many that is being revolutionized by nanotechnology. There is great hope for the commercialization of these breakthroughs since they have the potential to make energy production safer, far more sustainable, greater efficient, and less expensive. Nanotechnology is being studied for its potential to ...read more
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