含硫醇分子对cvd生长的二硫化钼的不同愈合特性

IF 2.9 4区 物理与天体物理 Q2 OPTICS Journal of Nonlinear Optical Physics & Materials Pub Date : 2023-07-01 DOI:10.1088/2515-7639/acdfff
Giovanna Feraco, O. D. Luca, Ali Syari’ati, Sardar Hameed, A. A. El Yumin, Jianting Ye, R. Agostino, P. Rudolf
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引用次数: 0

摘要

原子薄二硫化钼中的空位在控制其光学和电子特性方面起着至关重要的作用,这对于传感器,催化或电子学的应用至关重要。因此,采用巯基末端分子的缺陷工程用于修复和/或功能化缺陷纳米片。在这项工作中,化学气相沉积生长的具有不同缺陷密度的MoS2被三种分子功能化:4-氨基噻吩(ATP),联苯-4-硫醇(BPT)和4-亚硝基噻吩(NTP)。通过x射线光电子光谱、拉曼光谱和光致发光光谱(PL)探测了分子对二硫化钼的功能化效果。结果表明,将有缺陷的MoS2单层暴露于ATP、BPT或NTP分子中可以修复缺陷,但这些分子的化学结构会影响光学响应,并且只有BPT会增加PL强度。
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Different healing characteristics of thiol-bearing molecules on CVD-grown MoS2
Vacancies in atomically thin molybdenum disulphide play an essential role in controlling its optical and electronic properties, which are crucial for applications in sensorics, catalysis or electronics. For this reason, defect engineering employing thiol-terminated molecules is used to heal and/or functionalise defective nanosheets. In this work, chemical vapour deposition-grown MoS2 with different defect densities was functionalised with three molecules: 4-aminothiophenol (ATP), biphenyl-4-thiol (BPT) and 4-nitrothiophenol (NTP). The molecules’ efficacy in functionalising MoS2 was probed by x-ray photoelectron, Raman and photoluminescence (PL) spectroscopy. The results show that exposing a defective single layer of MoS2 to either ATP, BPT or NTP molecules heals the defects, however the chemical structure of these molecules affects the optical response and only for BPT the PL intensity increases.
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来源期刊
CiteScore
3.00
自引率
48.10%
发文量
53
审稿时长
3 months
期刊介绍: This journal is devoted to the rapidly advancing research and development in the field of nonlinear interactions of light with matter. Topics of interest include, but are not limited to, nonlinear optical materials, metamaterials and plasmonics, nano-photonic structures, stimulated scatterings, harmonic generations, wave mixing, real time holography, guided waves and solitons, bistabilities, instabilities and nonlinear dynamics, and their applications in laser and coherent lightwave amplification, guiding, switching, modulation, communication and information processing. Original papers, comprehensive reviews and rapid communications reporting original theories and observations are sought for in these and related areas. This journal will also publish proceedings of important international meetings and workshops. It is intended for graduate students, scientists and researchers in academic, industrial and government research institutions.
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