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Structural,Electronic, and Optical Properties of Hexagonal XC6 (X=N,P, As,and Sb) Monolayers
Authors:Dr. Wei Zhang  Prof. Changchun Chai  Prof. Qingyang Fan  Dr. Yanxing Song  Prof. Yintang Yang
Affiliation:1. School of Microelectronics, Xidian University, Xi'an, 710071 China;2. College of Information and Control Engineering, Xi'an University of Architecture and Technology, Xi'an, 710071 China
Abstract:Based on first-principles calculations, a novel family of two-dimensional (2D) IV–V compounds, XC6 (X=N, P, As and Sb), is proposed. These compounds exhibit excellent stability, as determined from the cohesive energies, phonon dispersion analysis, ab initio molecular dynamics (AIMD) simulations, and mechanical properties. In this type of structure, the carbon atom is sp2 hybridized, whereas the X (N, P, As and Sb) atom is nonplanar sp3 hybridized with one 2pz orbital filled with lone pair electrons. NC6, PC6, AsC6 and SbC6 monolayers are intrinsic indirect semiconductors with wide bandgaps of 2.02, 2.36, 2.77, and 2.85 eV (based on HSE06 calculations), respectively. After applying mechanical strain, PC6, AsC6 and SbC6 monolayers can be transformed from indirect to direct semiconductors. The appropriate bandgaps and well-located band edge positions make XC6 monolayers potential materials for photocatalytic water splitting. XC6 family members also have high absorption coefficients (∼105 cm−1) in the ultraviolet region and higher electron mobilities (∼103 cm2 V−1 s−1) than many known 2D semiconductors.
Keywords:2D materials  electronic and optical properties  first-principles calculations  IV–V compounds  photocatalytic water splitting
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