Abstract
We have fulfilled modeling of molecular and electronic structure of nanotubes BxNxCy (x ≥ 0, y ≥ 0) with various atom dispositions in the hexagonal lattice points on cylinder surfaces. Electronic spectra of such systems with a quasi-one-dimensional superlattice structure have been investigated in the topological and valence approximations. We suppose that these nanotubes consist of alternating carbon and boron nitride ring-like or chain-like structures. We have demonstrated that these systems with different extent of minizones in the electronic spectrum can be produced by means of a change of belt-like fragment width. Quasi-localized states were found in C2m symmetry nanotubes.
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