Issue 10, 2023

Highly anisotropic and ultra-diffusive vacancies in α-antimonene

Abstract

α-Antimonene has recently been successfully fabricated in experiment; hence, it is timely to examine how various types of point defects in α-antimonene can affect its novel electronic properties. Herein, we present a comprehensive investigation of a total of nine possible types of point defects in α-antimonene via first-principles calculations. Particular attention is placed on the structural stability of the point defects and the effects of point defects on the electronic properties of α-antimonene. Compared with its structural analogs, such as phosphorene, graphene, and silicene, we find that most defects in α-antimonene can be more easily generated, and that among the nine types of point defects, the single vacancy SV-(5|9) is likely the most stable one while its presence can be orders of magnitude higher in concentration than that in phosphorene. Moreover, we find that the vacancy exhibits anisotropic and low diffusion barriers, of merely 0.10/0.30 eV in the zigzag/armchair direction. Notably, at room temperature, the migration of SV-(5|9) in the zigzag direction of α-antimonene is estimated to be three orders faster than that along the armchair direction, and also three orders faster than that of phosphorene in the same direction. Overall, the point defects in α-antimonene can significantly affect the electronic properties of the host two-dimensional (2D) semiconductor and thus the light absorption capability. The anisotropic, ultra-diffusive, and charge tunable single vacancies, along with the high oxidation resistance, render the α-antimonene sheet a unique 2D semiconductor (beyond the phosphorene) for developing vacancy-enabled nanoelectronics.

Graphical abstract: Highly anisotropic and ultra-diffusive vacancies in α-antimonene

Supplementary files

Article information

Article type
Communication
Submitted
12 Jan. 2023
Accepted
06 Feb. 2023
First published
16 Feb. 2023

Nanoscale, 2023,15, 4821-4829

Highly anisotropic and ultra-diffusive vacancies in α-antimonene

N. Lu, X. Hu, J. Jiang, H. Guo, G. Z. Zuo, Z. Zhuo, X. Wu and X. C. Zeng, Nanoscale, 2023, 15, 4821 DOI: 10.1039/D3NR00194F

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