Structural, electronic and magnetic properties of C atom doped AlN nanoribbons

Ting Ting Sun; Yong Xin Wang; Xiu Juan Du; Bo Ke

doi:10.1016/j.spmi.2014.01.017

Structural, electronic and magnetic properties of C atom doped AlN nanoribbons

Ting Ting Sun, Yong Xin Wang, Xiu Juan Du, Bo Ke

Queen Mary University of London Engineering School

Northwestern Polytechnical University Xian

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

First-principles calculations are performed to study the structural, electronic and magnetic properties of pure and C atom doped AlN nanoribbons with both zigzag edge (ZAlNNR) and armchair edge (AAlNNR). With the substitution of one N (Al) atom by a single C atom, a local expansion (a local contraction) takes place, and the C atom is preferred to substituting an edge N or Al atom in 7-ZAlNNR or 7-AAlNNR. Furthermore, by substituting C atom at different positions, the systems may turn into magnetic semiconductors or show a metallic character, which may open a way to design magnetic nanodevices based on AlNNR.

Original language	English
Pages (from-to)	10-16
Number of pages	7
Journal	Superlattices and Microstructures
Volume	69
DOIs	https://doi.org/10.1016/j.spmi.2014.01.017
State	Published - May 2014

Keywords

AlN nanoribbons
Electronic and magnetic properties
First-principles
Structural

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10.1016/j.spmi.2014.01.017

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title = "Structural, electronic and magnetic properties of C atom doped AlN nanoribbons",

abstract = "First-principles calculations are performed to study the structural, electronic and magnetic properties of pure and C atom doped AlN nanoribbons with both zigzag edge (ZAlNNR) and armchair edge (AAlNNR). With the substitution of one N (Al) atom by a single C atom, a local expansion (a local contraction) takes place, and the C atom is preferred to substituting an edge N or Al atom in 7-ZAlNNR or 7-AAlNNR. Furthermore, by substituting C atom at different positions, the systems may turn into magnetic semiconductors or show a metallic character, which may open a way to design magnetic nanodevices based on AlNNR.",

keywords = "AlN nanoribbons, Electronic and magnetic properties, First-principles, Structural",

author = "Sun, {Ting Ting} and Wang, {Yong Xin} and Du, {Xiu Juan} and Bo Ke",

year = "2014",

month = may,

doi = "10.1016/j.spmi.2014.01.017",

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T1 - Structural, electronic and magnetic properties of C atom doped AlN nanoribbons

AU - Sun, Ting Ting

AU - Wang, Yong Xin

AU - Du, Xiu Juan

AU - Ke, Bo

PY - 2014/5

Y1 - 2014/5

N2 - First-principles calculations are performed to study the structural, electronic and magnetic properties of pure and C atom doped AlN nanoribbons with both zigzag edge (ZAlNNR) and armchair edge (AAlNNR). With the substitution of one N (Al) atom by a single C atom, a local expansion (a local contraction) takes place, and the C atom is preferred to substituting an edge N or Al atom in 7-ZAlNNR or 7-AAlNNR. Furthermore, by substituting C atom at different positions, the systems may turn into magnetic semiconductors or show a metallic character, which may open a way to design magnetic nanodevices based on AlNNR.

AB - First-principles calculations are performed to study the structural, electronic and magnetic properties of pure and C atom doped AlN nanoribbons with both zigzag edge (ZAlNNR) and armchair edge (AAlNNR). With the substitution of one N (Al) atom by a single C atom, a local expansion (a local contraction) takes place, and the C atom is preferred to substituting an edge N or Al atom in 7-ZAlNNR or 7-AAlNNR. Furthermore, by substituting C atom at different positions, the systems may turn into magnetic semiconductors or show a metallic character, which may open a way to design magnetic nanodevices based on AlNNR.

KW - AlN nanoribbons

KW - Electronic and magnetic properties

KW - First-principles

KW - Structural

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DO - 10.1016/j.spmi.2014.01.017

M3 - 文章

AN - SCOPUS:84896887962

SN - 0749-6036

VL - 69

SP - 10

EP - 16

JO - Superlattices and Microstructures

JF - Superlattices and Microstructures

ER -

Structural, electronic and magnetic properties of C atom doped AlN nanoribbons

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