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CONDENSED MATTER

Effect of intrinsic defects on the electronic structure of BN nanotubes

A. Yu. Golovacheva, P. N. D'yachkov

Kurnakov Institute of General and Inorganic Chemistry, Russian Academy of Sciences

Abstract: The effect of intrinsic defects on the electronic structure of boron-nitrogen nanotubes (5, 5) and (9, 0) is investigated by the method of linearized associated cylindrical waves. Nanotubes with extended defects of substitution N _B of a boron atom by a nitrogen atom and, vice versa, nitrogen by boron B N with an impurity concentration of 1.5 to 5% are considered. It is shown that the presence of such defects significantly affects the band structure of boron-nitrogen nanotubes. A defect band D ^π(B, N) is formed in the bandgap, which sharply reduces the width of the gap. The presence of impurities also affects the valence band: the widths of s, sp, and p _π bands change and the gap between s and sp bands is partially filled. These effects may be detected experimentally by, e.g., optical and photoelectron spectroscopy.

PACS: 67.57.Lm, 76.60.-k

Received: 09.11.2005

 English version: Journal of Experimental and Theoretical Physics Letters, 2005, 82:11, 737–741

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