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二维β-贵金属过渡金属硫族化合物:具有多种优异光电特性和强面内各向异性的新型高稳定性半导体。

Two-dimensional β-noble-transition-metal chalcogenide: novel highly stable semiconductors with manifold outstanding optoelectronic properties and strong in-plane anisotropy.

作者信息

Chen Qing-Yuan, Huang Fei-Jie, Ruan Ju-Qi, Zhao Yi-Fen, Li Fen, Yang Hai, He Yao, Xiong Kai

机构信息

School of Physical Science and Technology, Kunming University Kunming 650214 China

Department of Physics, Yunnan University No.2 Green Lake North Road, Wu Hua Qu Kunming 650091 Yunnan Province China.

出版信息

RSC Adv. 2023 Oct 2;13(41):28861-28872. doi: 10.1039/d3ra05515a. eCollection 2023 Sep 26.

DOI:10.1039/d3ra05515a
PMID:37790098
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10543986/
Abstract

In this work, five two-dimensional (2D) noble-transition-metal chalcogenide (NTMC) semiconductors, namely β-NX (N = Au, Ag; X = S, Se, Te), were designed and predicted by first-principles simulations. Structurally, the monolayer β-NX materials have good energetic, mechanical, dynamical, and thermal stability. They contain two inequivalent noble-transition-metal atoms in the unit cell, and the N-X bond comprises a partial ionic bond and a partial covalent bond. Regarding the electronic properties, the β-NX materials are indirect-band-gap semiconductors with appropriate band-gap values. They have tiny electron effective masses. The hole effective masses exhibit significant differences in different directions, indicating strongly anisotropic hole mobility. In addition, the coexistence of linear and square-planar channels means that the diffusion and transport of carriers should be anisotropic. In terms of optical properties, the β-NX materials show high absorption coefficients. The absorption and reflection characteristics reveal strong anisotropy in different directions. Therefore, the β-NX materials are indirect-band-gap semiconductors with good stability, high absorption coefficients, and strong mechanical, electronic, transport, and optical anisotropy. In the future, they could have great potential as 2D semiconductors in nano-electronics and nano-optoelectronics.

摘要

在这项工作中,通过第一性原理模拟设计并预测了五种二维(2D)贵金属-过渡金属硫族化物(NTMC)半导体,即β-NX(N = Au,Ag;X = S,Se,Te)。在结构上,单层β-NX材料具有良好的能量、力学、动力学和热稳定性。它们在单胞中包含两个不等价的贵金属-过渡金属原子,且N-X键包含部分离子键和部分共价键。关于电子性质,β-NX材料是具有合适带隙值的间接带隙半导体。它们具有微小的电子有效质量。空穴有效质量在不同方向上表现出显著差异,表明空穴迁移率具有强烈的各向异性。此外,线性和平面对称通道的共存意味着载流子的扩散和传输应该是各向异性的。在光学性质方面,β-NX材料表现出高吸收系数。吸收和反射特性在不同方向上显示出强烈的各向异性。因此,β-NX材料是具有良好稳定性、高吸收系数以及强力学、电子、传输和光学各向异性的间接带隙半导体。未来,它们作为纳米电子学和纳米光电子学中的二维半导体可能具有巨大潜力。

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