铝离子嵌入二硫化钼量子点的光致发光增强

IF 1.2 4区化学 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL

Chinese Journal of Chemical Physics Pub Date : 2023-10-01 DOI:10.1063/1674-0068/cjcp2206101

Yanmin Kuang, Wenli He, Zhichao Zhu, Yaru Chen, Dongwei Ma, Xiaojuan Wang, Lijun Guo, Yulu He, Zhen Chi, Xia Ran, Luogang Xie

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引用次数: 0

摘要

二硫化钼(MoS2)量子点(QDs)的低光致发光量子产率限制了其作为潜在荧光材料的实际应用。本文报道了铝离子(Al3+)的插入增强MoS2量子点的PL及其机制。通过详细的表征和激子动力学研究，我们认为Al3+嵌入可以有效地将包括新发射中心在内的附加表面态引入MoS2量子点。新的激子重组辐射途径与非辐射表面阱钝化的协同作用是二硫化钼量子点荧光增强的原因。我们的发现为改善MoS2量子点的光学特性提供了一种有效的策略，对于理解表面态对二维硫化物量子点发射的调节作用具有重要意义。

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Photoluminescence enhancement of aluminum ion intercalated MoS2 quantum dots

Low photoluminescence (PL) quantum yield of molybdenum disulfide (MoS2) quantum dots (QDs) has limited practical application as potential fluorescent materials. Here, we report the intercalation of aluminum ion (Al3+) to enhance the PL of MoS2 QDs and the underlying mechanism. With detailed characterization and exciton dynamics study, we suggest that additional surface states including new emission centers have been effectively introduced to MoS2 QDs by the Al3+ intercalation. The synergy of new radiative pathway for exciton recombination and the passivation of non-radiative surface traps is responsible for the enhanced fluorescence of MoS2 QDs. Our findings demonstrate an efficient strategy to improve the optical properties of MoS2 QDs and are important for understanding the regulation effect of surface states on the emission of two dimensional sulfide QDs.

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来源期刊

Chinese Journal of Chemical Physics 物理-物理：原子、分子和化学物理

CiteScore

1.90

自引率

10.00%

发文量

2763

审稿时长

3 months

期刊介绍： Chinese Journal of Chemical Physics (CJCP) aims to bridge atomic and molecular level research in broad scope for disciplines in chemistry, physics, material science and life sciences, including the following: Theoretical Methods, Algorithms, Statistical and Quantum Chemistry Gas Phase Dynamics and Structure: Spectroscopy, Molecular Interactions, Scattering, Photochemistry Condensed Phase Dynamics, Structure, and Thermodynamics: Spectroscopy, Reactions, and Relaxation Processes Surfaces, Interfaces, Single Molecules, Materials and Nanosciences Polymers, Biopolymers, and Complex Systems Other related topics