The structural and electronic properties of amine-functionalized boron nitride nanotubes via ammonia plasmas: a density functional theory study

The reaction behavior of the chemical modification of boron nitride nanotubes (BNNTs) with ammonia plasmas has been investigated by density functional theory (DFT) calculations. Unlike previously studied functionalization with NH(3) and amino functional groups, we found that NH(2)(*) radicals involv...

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Published in:Nanotechnology 2009-04, Vol.20 (14), p.145703-145703
Main Authors: Cao, Fenglei, Ren, Wei, Ji, Yue-meng, Zhao, Cunyuan
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creator Cao, Fenglei
Ren, Wei
Ji, Yue-meng
Zhao, Cunyuan
description The reaction behavior of the chemical modification of boron nitride nanotubes (BNNTs) with ammonia plasmas has been investigated by density functional theory (DFT) calculations. Unlike previously studied functionalization with NH(3) and amino functional groups, we found that NH(2)(*) radicals involved in the ammonia plasmas can be covalently incorporated to BNNTs through a strong single B-N bond. Subsequently, the H(*) radicals also involved in the ammonia plasmas would prefer to combine with the N atoms neighboring the NH(2)-functionalized B atoms. Our study revealed that this reaction behavior can be elucidated using the frontier orbital theory. The calculated band structures and density of states (DOS) indicate that this modification is an effective method to modulate the electronic properties of BNNTs. We have discussed various defects on the surface of BNNTs generated by collisions of N(2)(+) ions. For most defects considered, the reactivity of the functionalization of BNNTs with NH(2)(*) are enhanced. Our conclusions are independent of the chirality, and the diameter dependence of the reaction energies is presented.
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title The structural and electronic properties of amine-functionalized boron nitride nanotubes via ammonia plasmas: a density functional theory study
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