Large-scale growth of MoS2 hybrid layer by chemical vapor deposition with nanosheet promoter

IF 2.6 4区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Microelectronic Engineering Pub Date : 2024-07-13 DOI:10.1016/j.mee.2024.112239

Jae Hyeok Shin, Hyejin Rhyu, Myung Hyun Kang, Wooseok Song, Sun Sook Lee, Jongsun Lim, Sung Myung

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Abstract

Molybdenum disulfide (MoS₂) serves as the representative transition metal dichalcogenide material, showing promise for diverse applications owing to its outstanding properties. Extensive research has been conducted on the growth of large-scale MoS₂ films using chemical vapor deposition (CVD) with seeding accelerators for various device applications. In this study, we investigated the growth of large-scale MoS₂ films for potential applications, in which our approach utilized CVD with a homogeneous nanosheet promoter (MoS₂ flakes) and effectively minimized residue creation. Optical and structural analyses confirmed the successful synthesis of a large-scale MoS₂ layer. Moreover, the decoration of metallic nanoparticles on the MoS₂ surface was employed to enhance the functionalities of application devices such as optical sensors and gas sensors. The capability of MoS₂ to act as a nucleation site for nanoparticles during synthesis offered an intriguing pathway for augmenting the attachment and performance of nanoparticles on the MoS₂ surface. The photodetector, integrating a hybrid MoS₂ layer and Cu nanoparticles, exhibited superior photodetection properties, attributed to the increased excitons at the interface between the metal electrodes and MoS₂ films. Furthermore, in order to enhance the characteristics of the gas sensor, Pd nanoparticles were incorporated during the synthesis of MoS₂ layers. This dynamic interface between Pd particles and MoS₂ films presents an opportunity to explore novel materials with enhanced catalytic properties.

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利用纳米片促进剂通过化学气相沉积大规模生长 MoS2 混合层

二硫化钼（MoS2）是具有代表性的过渡金属二卤化物材料，因其卓越的性能而在各种应用领域大有可为。人们利用化学气相沉积（CVD）技术和播种加速剂对大规模 MoS2 薄膜的生长进行了广泛的研究，以便将其应用于各种设备。在本研究中，我们研究了用于潜在应用的大尺度 MoS2 薄膜的生长，其中我们的方法利用了带有均质纳米片促进剂（MoS2 片）的 CVD，并有效地减少了残留物的产生。光学和结构分析证实了大规模 MoS2 层的成功合成。此外，还在 MoS2 表面装饰了金属纳米颗粒，以增强光学传感器和气体传感器等应用设备的功能。在合成过程中，MoS2 能够成为纳米粒子的成核场所，这为增强纳米粒子在 MoS2 表面的附着和性能提供了一条有趣的途径。集成了 MoS2 混合层和铜纳米粒子的光电探测器表现出卓越的光电探测性能，这归功于金属电极和 MoS2 薄膜界面上激子的增加。此外，为了增强气体传感器的特性，在合成 MoS2 层时加入了钯纳米粒子。Pd 颗粒与 MoS2 薄膜之间的这种动态界面为探索具有更强催化特性的新型材料提供了机会。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Microelectronic Engineering 工程技术-工程：电子与电气

CiteScore

5.30

自引率

4.30%

发文量

131

审稿时长

29 days

期刊介绍： Microelectronic Engineering is the premier nanoprocessing, and nanotechnology journal focusing on fabrication of electronic, photonic, bioelectronic, electromechanic and fluidic devices and systems, and their applications in the broad areas of electronics, photonics, energy, life sciences, and environment. It covers also the expanding interdisciplinary field of "more than Moore" and "beyond Moore" integrated nanoelectronics / photonics and micro-/nano-/bio-systems. Through its unique mixture of peer-reviewed articles, reviews, accelerated publications, short and Technical notes, and the latest research news on key developments, Microelectronic Engineering provides comprehensive coverage of this exciting, interdisciplinary and dynamic new field for researchers in academia and professionals in industry.