Dirac fermions in blue-phosphorus

Yuanchang Li; Xiaobin Chen

doi:10.1088/2053-1583/1/3/031002

Dirac fermions in blue-phosphorus

Yuanchang Li
, Xiaobin Chen

National Center for Nanoscience and Technology
Tsinghua University

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

25 Scopus citations

Abstract

We propose that Dirac cones can be engineered in phosphorene with fourfoldcoordinated phosphorus atoms. The key is to separate the energy levels of the inplane (s, px, and py) and out-of-plane (pz) oribtals through the sp2 configuration, yielding respective σ-and φ-character Dirac cones, and then quench the latter. As a proof-of-principle study, we create σ-character Dirac cones in hydrogenated and fluorinated phosphorene with a honeycomb lattice. The obtained Dirac cones are at K-points, slightly anisotropic, with Fermi velocities of 0.91 and 1.23 times that of graphene along the ?K and KM direction, and maintain good linearity up to 2 eV for holes. A substantive advantage of a σ-character Dirac cone is its convenience in tuning the Dirac gap via in-plane strain. Our findings pave the way for development of high-performance electronic devices based on Dirac materials.

Original language	English
Article number	A2
Journal	2D Materials
Volume	1
Issue number	3
DOIs	https://doi.org/10.1088/2053-1583/1/3/031002
State	Published - 1 Dec 2014
Externally published	Yes

Keywords

DFT
Four-fold coordinated
Phosphorene
σ-character Dirac cone

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10.1088/2053-1583/1/3/031002

Cite this

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title = "Dirac fermions in blue-phosphorus",

abstract = "We propose that Dirac cones can be engineered in phosphorene with fourfoldcoordinated phosphorus atoms. The key is to separate the energy levels of the inplane (s, px, and py) and out-of-plane (pz) oribtals through the sp2 configuration, yielding respective σ-and φ-character Dirac cones, and then quench the latter. As a proof-of-principle study, we create σ-character Dirac cones in hydrogenated and fluorinated phosphorene with a honeycomb lattice. The obtained Dirac cones are at K-points, slightly anisotropic, with Fermi velocities of 0.91 and 1.23 times that of graphene along the ?K and KM direction, and maintain good linearity up to 2 eV for holes. A substantive advantage of a σ-character Dirac cone is its convenience in tuning the Dirac gap via in-plane strain. Our findings pave the way for development of high-performance electronic devices based on Dirac materials.",

keywords = "DFT, Four-fold coordinated, Phosphorene, σ-character Dirac cone",

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doi = "10.1088/2053-1583/1/3/031002",

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T1 - Dirac fermions in blue-phosphorus

AU - Li, Yuanchang

AU - Chen, Xiaobin

PY - 2014/12/1

Y1 - 2014/12/1

N2 - We propose that Dirac cones can be engineered in phosphorene with fourfoldcoordinated phosphorus atoms. The key is to separate the energy levels of the inplane (s, px, and py) and out-of-plane (pz) oribtals through the sp2 configuration, yielding respective σ-and φ-character Dirac cones, and then quench the latter. As a proof-of-principle study, we create σ-character Dirac cones in hydrogenated and fluorinated phosphorene with a honeycomb lattice. The obtained Dirac cones are at K-points, slightly anisotropic, with Fermi velocities of 0.91 and 1.23 times that of graphene along the ?K and KM direction, and maintain good linearity up to 2 eV for holes. A substantive advantage of a σ-character Dirac cone is its convenience in tuning the Dirac gap via in-plane strain. Our findings pave the way for development of high-performance electronic devices based on Dirac materials.

AB - We propose that Dirac cones can be engineered in phosphorene with fourfoldcoordinated phosphorus atoms. The key is to separate the energy levels of the inplane (s, px, and py) and out-of-plane (pz) oribtals through the sp2 configuration, yielding respective σ-and φ-character Dirac cones, and then quench the latter. As a proof-of-principle study, we create σ-character Dirac cones in hydrogenated and fluorinated phosphorene with a honeycomb lattice. The obtained Dirac cones are at K-points, slightly anisotropic, with Fermi velocities of 0.91 and 1.23 times that of graphene along the ?K and KM direction, and maintain good linearity up to 2 eV for holes. A substantive advantage of a σ-character Dirac cone is its convenience in tuning the Dirac gap via in-plane strain. Our findings pave the way for development of high-performance electronic devices based on Dirac materials.

KW - DFT

KW - Four-fold coordinated

KW - Phosphorene

KW - σ-character Dirac cone

UR - https://www.scopus.com/pages/publications/84940178668

U2 - 10.1088/2053-1583/1/3/031002

DO - 10.1088/2053-1583/1/3/031002

M3 - 文章

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SN - 2053-1583

VL - 1

JO - 2D Materials

JF - 2D Materials

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ER -

Dirac fermions in blue-phosphorus

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Keywords

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