Ukpong, Aniekan M.Chetty, Nithaya2012-06-252012-06-252012-05Ukpong AM & Chetty, N 2012, 'Density functional studies of the defect-induced electronic structure modifications in bilayer boronitrene', Journal of Physics : Conference Series, vol. 367, no.1, pp. 1-6.1742-6588 (print)1742-6596 (online)10.1088/1742-6596/367/1/012004http://hdl.handle.net/2263/19239The van der Waals interaction-corrected density functional theory is used in this study to investigate the formation, energetic stability, and inter-layer cohesion in bilayer hexagonal boronitrene. The effect of inter-layer separation on the electronic structure is systematically investigated. The formation and energetic stability of intrinsic defects are also investigated at the equilibrium inter-layer separation. It is found that nonstoichiometric defects, and their complexes, that induce excess nitrogen or excess boron, in each case, are relatively more stable in the atmosphere that corresponds to the excess atomic species. The modifications of the electronic structure due to formation of complexes are also investigated. It is shown that van der Waals density functional theory gives an improved description of the cohesive properties but not the electronic structure in bilayer boronitrene compared to other functionals. We identify energetically favourable topological defects that retain the energy gap in the electronic structure, and discuss their implications for band gap engineering in low-n layer boronitrene insulators. The relative strengths and weaknesses of the functionals in predicting the properties of bilayer boronitrene are also discussed.en© IOP Publishing 2012Functional theoryBilayer boronitreneEnergetic stabilityDensity functionalsPostprint Article