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Synthesis of Wafer-Scale Monolayer WS2 Crystals toward the Application in Integrated Electronic Devices.

Jiajun ChenKai ShaoWeihuang YangWeiqing TangJiangpeng ZhouQinming HeYaping WuChunmiao ZhangXu LiXu YangZhiming WuJunyong Kang
Published in: ACS applied materials & interfaces (2019)
Two-dimensional transition-metal dichalcogenides (TMDCs) possess unique electronic and optical properties, which open up a new opportunity for atomically thin optoelectronic devices. Synthesizing large-scale monolayer TMDCs on the SiO2/Si substrate is crucial for practical applications, however, it remains a big challenge. In this work, a method which combines chemical vapor deposition (CVD) and thermal evaporation was employed to grow monolayer tungsten disulfide (WS2) crystals. Through controlling the density and the distribution of W precursors, a wafer-scale continuous uniform WS2 film was achieved, with the structural and spectral characterizations confirming a monolayer configuration and a high crystalline quality. Wafer-scale field-effect transistor arrays based on the monolayer WS2 were fabricated. The devices show superior electrical performances, and the maximal mobility is almost 1 order of magnitude higher than those of CVD-grown large-scale TMDC devices reported so far.
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