Vapor growth of V-doped MoS2 monolayers with enhanced B-exciton emission and broad spectral response.

IF 4.1 3区 工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Frontiers of Optoelectronics Pub Date : 2023-12-07 DOI:10.1007/s12200-023-00097-w
Biyuan Zheng, Xingxia Sun, Weihao Zheng, Chenguang Zhu, Chao Ma, Anlian Pan, Dong Li, Shengman Li
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Abstract

Dynamically engineering the optical and electrical properties in two-dimensional (2D) materials is of great significance for designing the related functions and applications. The introduction of foreign-atoms has previously been proven to be a feasible way to tune the band structure and related properties of 3D materials; however, this approach still remains to be explored in 2D materials. Here, we systematically demonstrate the growth of vanadium-doped molybdenum disulfide (V-doped MoS2) monolayers via an alkali metal-assisted chemical vapor deposition method. Scanning transmission electron microscopy demonstrated that V atoms substituted the Mo atoms and became uniformly distributed in the MoS2 monolayers. This was also confirmed by Raman and X-ray photoelectron spectroscopy. Power-dependent photoluminescence spectra clearly revealed the enhanced B-exciton emission characteristics in the V-doped MoS2 monolayers (with low doping concentration). Most importantly, through temperature-dependent study, we observed efficient valley scattering of the B-exciton, greatly enhancing its emission intensity. Carrier transport experiments indicated that typical p-type conduction gradually arisen and was enhanced with increasing V composition in the V-doped MoS2, where a clear n-type behavior transited first to ambipolar and then to lightly p-type charge carrier transport. In addition, visible to infrared wide-band photodetectors based on V-doped MoS2 monolayers (with low doping concentration) were demonstrated. The V-doped MoS2 monolayers with distinct B-exciton emission, enhanced p-type conduction and broad spectral response can provide new platforms for probing new physics and offer novel materials for optoelectronic applications.

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具有增强b激子发射和广谱响应的v掺杂MoS2单层的气相生长。
动态工程化二维材料的光学和电学性质对于设计相关功能和应用具有重要意义。引入外来原子已经被证明是一种可行的方法来调整三维材料的能带结构和相关性质;然而,这种方法在二维材料中仍有待探索。在这里,我们系统地展示了通过碱金属辅助化学气相沉积法生长钒掺杂二硫化钼(v掺杂MoS2)单层。扫描透射电镜显示,V原子取代Mo原子,在MoS2单层中均匀分布。拉曼光谱和x射线光电子能谱也证实了这一点。功率依赖性光致发光光谱清楚地揭示了v掺杂(低掺杂浓度)二硫化钼单层中b激子发射特性的增强。最重要的是,通过温度依赖性研究,我们观察到b激子的有效谷散射,大大增强了其发射强度。载流子输运实验表明,在V掺杂的MoS2中,典型的p型导电逐渐出现,并随着V成分的增加而增强,其中明显的n型行为首先转变为双极性,然后转变为轻微的p型载流子输运。此外,还证明了基于v掺杂MoS2单层(低掺杂浓度)的可见光到红外宽带光电探测器。v掺杂的MoS2单层具有明显的b激子发射、增强的p型传导和广谱响应,可以为探索新物理提供新的平台,并为光电应用提供新的材料。
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来源期刊
Frontiers of Optoelectronics
Frontiers of Optoelectronics ENGINEERING, ELECTRICAL & ELECTRONIC-
CiteScore
7.80
自引率
0.00%
发文量
583
期刊介绍: Frontiers of Optoelectronics seeks to provide a multidisciplinary forum for a broad mix of peer-reviewed academic papers in order to promote rapid communication and exchange between researchers in China and abroad. It introduces and reflects significant achievements being made in the field of photonics or optoelectronics. The topics include, but are not limited to, semiconductor optoelectronics, nano-photonics, information photonics, energy photonics, ultrafast photonics, biomedical photonics, nonlinear photonics, fiber optics, laser and terahertz technology and intelligent photonics. The journal publishes reviews, research articles, letters, comments, special issues and so on. Frontiers of Optoelectronics especially encourages papers from new emerging and multidisciplinary areas, papers reflecting the international trends of research and development, and on special topics reporting progress made in the field of optoelectronics. All published papers will reflect the original thoughts of researchers and practitioners on basic theories, design and new technology in optoelectronics. Frontiers of Optoelectronics is strictly peer-reviewed and only accepts original submissions in English. It is a fully OA journal and the APCs are covered by Higher Education Press and Huazhong University of Science and Technology. ● Presents the latest developments in optoelectronics and optics ● Emphasizes the latest developments of new optoelectronic materials, devices, systems and applications ● Covers industrial photonics, information photonics, biomedical photonics, energy photonics, laser and terahertz technology, and more
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