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Magnetism of C Adatoms on BN Nanostructures: Implications for Functional Nanodevices

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Authors

Li, Jia
Zhou, Gang
Chen, Ying
Gu, Bing-Lin
Duan, Wenhui

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American Chemical Society

Abstract

Spin-polarized density functional calculations reveal that magnetism can be induced by carbon adatoms on boron nitride nanotubes(BNNTs)and BN hexagonal sheets. As a result of the localization of impurity states, these hybrid sp-electron systems are spin-polarized, with a local magnetic moment of 2.0 μB per C adatom regardless of the tube diameter and the bonding between the C atom and the BNNTs/BN sheets. An analysis of orbital hybridization indicates that two valence electrons participate in the bonding and the remaining two electrons of the C adatom are confined at the adsorption site and contribute to the magnetism accordingly. The effective interaction distance between the C-induced magnetic moments is evaluated. In terms of the diffusion barrier and the adsorption energy of C adatoms on the BN nanotubes/ sheets, a fabrication method for BN-C-based functional nanodevices is proposed, and a series of virtual building blocks for functional devices are illustrated.

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Journal of the American Chemical Society

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Restricted until

2037-12-31