Band gap opening of monolayer and bilayer graphene doped with aluminium, silicon, phosphorus, and sulfur

被引:363
|
作者
Denis, Pablo A. [1 ,2 ]
机构
[1] UDELAR, Fac Quim, DETEMA, Computat Nanotechnol, Montevideo 11800, Uruguay
[2] UDELAR, Ctr Interdisciplinario Nanotecnol & Quim Fis Mat, Espacios Intersiciplinarios, Montevideo 11800, Uruguay
来源
CHEMICAL PHYSICS LETTERS | 2010年 / 492卷 / 4-6期
关键词
EPITAXIAL GRAPHENE; STABILITY;
D O I
10.1016/j.cplett.2010.04.038
中图分类号
O64 [物理化学(理论化学)、化学物理学];
学科分类号
070304 ; 081704 ;
摘要
The chemical doping of monolayer and bilayer graphene with aluminium, silicon, phosphorus and sulfur was investigated. Si-doped graphene has the lowest formation energy although it is semimetallic. P-doped graphene has a magnetic moment of 1 mu(B) and for 3 at.% of doping the band gap is 0.67 eV. Al-doped graphene is very unstable but it is an attractive material because it is metallic. To reduce the formation energies of the substitutional defects we investigated the formation of interlayer bonds in bilayer graphene. Phosphorus forms the strongest bonds between layers giving particular stability to this material. P-doped bilayer graphene has a gap of 0.43 eV but it is has no magnetic moment. (C) 2010 Elsevier B.V. All rights reserved.
引用
收藏
页码:251 / 257
页数:7
相关论文
共 50 条
  • [1] Band Gap Opening in Dual-Doped Monolayer Graphene
    Denis, Pablo A.
    Huelmo, C. Pereyra
    Martins, A. S.
    JOURNAL OF PHYSICAL CHEMISTRY C, 2016, 120 (13): : 7103 - 7112
  • [2] Mono and dual doped monolayer graphene with aluminum, silicon, phosphorus and sulfur
    Denis, Pablo A.
    COMPUTATIONAL AND THEORETICAL CHEMISTRY, 2016, 1097 : 40 - 47
  • [3] Optical conductivity enhancement and band gap opening with silicon doped graphene
    Houmad, M.
    Zaari, H.
    Benyoussef, A.
    El Kenz, A.
    Ez-Zahraouy, H.
    CARBON, 2015, 94 : 1021 - 1027
  • [4] Band gap opening of bilayer graphene by graphene oxide support doping
    Tang, Shaobin
    Wu, Weihua
    Xie, Xiaojun
    Li, Xiaokang
    Gu, Junjing
    RSC ADVANCES, 2017, 7 (16) : 9862 - 9871
  • [5] Triple-Doped Monolayer Graphene with Boron, Nitrogen, Aluminum, Silicon, Phosphorus, and Sulfur
    Ullah, Saif
    Denis, Pablo A.
    Sato, Fernando
    CHEMPHYSCHEM, 2017, 18 (14) : 1864 - 1873
  • [6] Opening an Electrical Band Gap of Bilayer Graphene with Molecular Doping
    Zhang, Wenjing
    Lin, Cheng-Te
    Liu, Keng-Ku
    Tite, Teddy
    Su, Ching-Yuan
    Chang, Chung-Huai
    Lee, Yi-Hsien
    Chu, Chih-Wei
    Wei, Kung-Hwa
    Kuo, Jer-Lai
    Li, Lain-Jong
    ACS NANO, 2011, 5 (09) : 7517 - 7524
  • [7] Molecular Doping and Band-Gap Opening of Bilayer Graphene
    Samuels, Alexander J.
    Carey, J. David
    ACS NANO, 2013, 7 (03) : 2790 - 2799
  • [8] BAND GAP OPENING EFFECT ON THE TRANSPORT PROPERTIES OF BILAYER GRAPHENE SUPERLATTICE
    Sattari, Farhad
    Faizabadi, Edris
    INTERNATIONAL JOURNAL OF MODERN PHYSICS B, 2013, 27 (08):
  • [9] Concentration dependence of the band gaps of phosphorus and sulfur doped graphene
    Denis, Pablo A.
    COMPUTATIONAL MATERIALS SCIENCE, 2013, 67 : 203 - 206
  • [10] Opening and tuning of band gap by the formation of diamond superlattices in twisted bilayer graphene
    Muniz, Andre R.
    Maroudas, Dimitrios
    PHYSICAL REVIEW B, 2012, 86 (07)
12345