Dry Electrochemical Etching of MoS2 Thin Films Using Plasma System

材料科学 薄膜 光电子学 薄脆饼 化学气相沉积 纳米技术 等离子体刻蚀 石墨烯 退火(玻璃) 半导体 带隙 蚀刻(微加工) 图层(电子) 复合材料
作者
Cheol Hyoun Ahn,Min Hwan Jeon,Hyeong U Kim,Kyong Nam Kim,Hongyi Qin,Yeongseok Kim,Geun Young Yeom,Taesung Kim
出处
期刊:Meeting abstracts [Institute of Physics]
卷期号:MA2015-02 (23): 923-923
标识
DOI:10.1149/ma2015-02/23/923
摘要

The graphene has been spot lighted as next generation 2D materials with excellent electrical, mechanical and optical properties for various fields of application. Recently, development of the wafer scale 2D thin film materials synthesis process leads to commercialization for the wearable devices. However, the zero band-gap of graphene has limitations for ‘off current’ realization, which attribute to difficult in utilizing for semiconductor devices. On the other hands, among the transition metal dichalcogenides (TMSs), molybdenum sulfide (MoS 2 ) one can tune the band-gap depending on the number of layers from the 1.2 eV for bulk state to 1.8 eV for monolayer. It is reported that the layer dependent properties of MoS 2 play important role in phototransistor application. Meanwhile, number of layers for MoS 2 thin film can be controlled by the sulfurization of metal molybdenum (Mo). This process depends on pre-deposited Mo thickness and reaction with dissociated H 2 S gas during chemical vapor deposition (CVD). Also, in addition to the controlled growth methods, various etching techniques have been investigated as like the laser thinning method, thermal ablation and thermal annealing at 650 o C. These methods were able to etch the MoS 2 thin film layers without changing the crystalline quality and surface roughness. However, requiring a high temperature process and a long process time were remain as challenge. Recently, though Ar + plasma has been investigated for the controlled layer through electrochemical etching of patterned MoS 2 thin films, this cause the limitation for physical damage on the surface due to the physical bombardment of Ar+ ion. Also, chemical etching of MoS 2 thin film using XeF 2 gas. However, the etch rate was not a linear function of etch time due to heat dissipation during the chemical reaction indicating the difficulties in the precise layers control. Therefore, the effective process for thickness control in 2D semiconductor thin film materials, such as MoS 2 , is needed for various flexible device application. In this study, A few layered MoS 2 thin films were synthesized by plasma enhanced CVD (PECVD) and followed by dry electrochemical etching with the help of CF 4 inductively coupled plasma (ICP). First the MoS 2 thin films were synthesized in the PECVD system by Mo sulfurization on SiO 2 /Si wafers at 300 o C with optimized plasma conditions. Next, the synthesized six-layer MoS 2 thin films were etched using a separate ICP etching system using CF 4 plasma at room temperature with etching time variables. The results from Raman spectroscopy and atomic force microscopy (AFM) showed that, one layer of MoS 2 thin film can be etched during 20 sec. exposure of CF 4 plasma after an initial incubation time of 20 sec. The X-ray photoelectron spectroscopy (XPS) data reveals that there are damages and contaminations to MoS 2 thin films during CF 4 plasma exposure and these can be recovered effectively during 10 min. exposure of H 2 S plasma in PECVD. From these results we demonstrated that, the control on layer numbers in MoS 2 (2D materials) is a facile and promising method for fabricating devices with the plasma processes.

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