The typical two-dimensional semiconductors, group \uppercase\expandafter{\romannumeral3A} chalcogenides, have garnered tremendous interest for their outstanding electronic, mechanical, and chemical properties. However, so far, there have been almost no reports on boron monosulfides (BS) binary material. Here, four two-dimensional BS sheets, namely the α-, β-, γ-, and δ-BS sheets, are proposed and discussed from ab initio calculations. State-of-the-art first-principles calculations reveal all these structures are thermally and dynamically stable, indicating the potential for successful experimental synthesis. Especially, for α-BS, it has a calculated exfoliation energy of 0.96 J m−2, suggesting the preparation of α-BS is feasible by the exfoliation of bulk rhombohedral-BS. Our results show that α-, β-, γ-BS are semiconductors, whereas δ-BS is a metallic system. Remarkably, our calculations indicate that δ-BS is a superconductor with a large electron-phonon coupling (λ = 1.51) leading a high superconducting critical temperature (Tc≈ 21.56 K), which is the first report of intrinsic superconducting property among all two-dimensional group \uppercase\expandafter{\romannumeral3A} chalcogenides. The desired mechanical and electronic properties render the BS sheets as the promising two-dimensional materials for future applications in nanoelectronics.
@article{arxiv.1803.03459,
title = {Two-dimensional Boron Monosulfides: Semiconducting and Metallic Polymorphs},
author = {Dong Fan and Chuncheng Yang and Shaohua Lu and Xiaojun Hu},
journal= {arXiv preprint arXiv:1803.03459},
year = {2020}
}