Strong Valence Electrons Dependent and Logical Relations of Elemental Impurities in 2D Binary Semiconductor: a Case of GeP3 Monolayer from Ab Initio Studies

Suihao Zhang; Rui Li; Xiaonan Fu; Yu Zhao; Chunyao Niu; Chong Li; Zaiping Zeng; Songyou Wang; Congxin Xia; Yu Jia

doi:10.1186/s11671-019-3135-3

Nanoscale Research Letters (Sep 2019)

Strong Valence Electrons Dependent and Logical Relations of Elemental Impurities in 2D Binary Semiconductor: a Case of GeP3 Monolayer from Ab Initio Studies

Suihao Zhang,
Rui Li,
Xiaonan Fu,
Yu Zhao,
Chunyao Niu,
Chong Li,
Zaiping Zeng,
Songyou Wang,
Congxin Xia,
Yu Jia

Affiliations

Suihao Zhang: International Laboratory for Quantum Functional Materials of Henan, and School of Physics and Engineering, Zhengzhou University
Rui Li: Key Laboratory for Special Functional Materials of Ministry of Education, and School of Materials Science and Engineering, Henan University
Xiaonan Fu: College of Science, Henan University of Technology
Yu Zhao: International Laboratory for Quantum Functional Materials of Henan, and School of Physics and Engineering, Zhengzhou University
Chunyao Niu: International Laboratory for Quantum Functional Materials of Henan, and School of Physics and Engineering, Zhengzhou University
Chong Li: International Laboratory for Quantum Functional Materials of Henan, and School of Physics and Engineering, Zhengzhou University
Zaiping Zeng: Key Laboratory for Special Functional Materials of Ministry of Education, and School of Materials Science and Engineering, Henan University
Songyou Wang: Shanghai Ultra-Precision Optical Manufacturing Engineering Center and Department of Optical Science and Engineering, Fudan University
Congxin Xia: College of Physics and Materials, Henan Normal University
Yu Jia: International Laboratory for Quantum Functional Materials of Henan, and School of Physics and Engineering, Zhengzhou University

DOI: https://doi.org/10.1186/s11671-019-3135-3
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 11

Abstract

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Abstract Using first-principle calculations within density functional theory, we investigate the electronic property and stability of substitutionally doped 2D GeP3 monolayer with dopants from group III to VI. The conducting properties are found to be dramatically modified by both the doping sites and the number of valence electrons of dopants. Specifically, substitution on Ge site exhibits metal-semiconductor oscillations as a function of the number of valence electrons of dopants, while such oscillations are totally reversed when substitution on P site. Moreover, we also study the case of co-doping in GeP3, showing that co-doping can produce a logical “AND” phenomenon, that is, the conducting properties of co-doped GeP3 can be deduced via a simple logical relation according to the results of single doping. Finally, we investigate the formation energy of dopants and find that the electron-hole and hole-hole co-doped systems are much more energetically favorable due to the Coulomb attraction. Our findings not only present a comprehensive understanding of 2D doping phenomenon, but also propose an intriguing route to tune the electronic properties of 2D binary semiconductors.

Published in Nanoscale Research Letters

ISSN: 1931-7573 (Print); 1556-276X (Online)
Publisher: SpringerOpen
Country of publisher: United Kingdom
LCC subjects: Technology: Electrical engineering. Electronics. Nuclear engineering: Materials of engineering and construction. Mechanics of materials
Website: https://www.springer.com/journal/11671

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