超声辅助液相剥离 α-GeTe：一种具有高 Fe 灵敏度的二维材料。

Sonication-assisted liquid-phase exfoliated α-GeTe: a two-dimensional material with high Fe sensitivity.

机构信息

School of Materials Science and Engineering, Tianjin University, Tianjin 300072, P. R. China.

出版信息

Nanoscale. 2018 Aug 30;10(34):15989-15997. doi: 10.1039/c8nr03091j.

Abstract

We describe sonication-assisted liquid-phase exfoliation of rhombohedral germanium telluride (α-GeTe) to obtain a good dispersion of α-GeTe nanosheets in ethanol. The thickness of the α-GeTe nanosheets is dependent on the exfoliation conditions, and few-layer α-GeTe nanosheets of 2-4 layers and even monolayer α-GeTe were obtained. We use first-principles calculations to investigate the structural, electronic, and optical properties of monolayer and bulk α-GeTe and compare the optical band gap of centrifugally fractionated α-GeTe nanosheet dispersions with the computational predictions. We demonstrate that few layer α-GeTe nanosheets are purified selectively through centrifugation, and they exhibit high sensitivity to Fe3+. The scalable production of two-dimensional α-GeTe nanosheets can be used in the future optoelectronic industry.

摘要

我们描述了菱形碲化锗（α-GeTe）的超声液相剥离，以获得在乙醇中良好分散的α-GeTe 纳米片。α-GeTe 纳米片的厚度取决于剥离条件，可以获得 2-4 层甚至单层α-GeTe 的少层α-GeTe 纳米片。我们使用第一性原理计算来研究单层和体相α-GeTe 的结构、电子和光学性质，并将离心分离的α-GeTe 纳米片分散体的光学带隙与计算预测进行比较。我们证明了通过离心可以选择性地纯化少层α-GeTe 纳米片，并且它们对 Fe3+ 具有高灵敏度。二维α-GeTe 纳米片的规模化生产可用于未来的光电工业。

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超声辅助液相剥离 α-GeTe：一种具有高 Fe 灵敏度的二维材料。

Sonication-assisted liquid-phase exfoliated α-GeTe: a two-dimensional material with high Fe sensitivity.

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