Wan Yi, Li En, Yu Zhihao, Huang Jing-Kai, Li Ming-Yang, Chou Ang-Sheng, Lee Yi-Te, Lee Chien-Ju, Hsu Hung-Chang, Zhan Qin, Aljarb Areej, Fu Jui-Han, Chiu Shao-Pin, Wang Xinran, Lin Juhn-Jong, Chiu Ya-Ping, Chang Wen-Hao, Wang Han, Shi Yumeng, Lin Nian, Cheng Yingchun, Tung Vincent, Li Lain-Jong
Physical Sciences and Engineering Division, King Abdullah University of Science and Technology (KAUST), Thuwal, Kingdom of Saudi Arabia.
Department of Mechanical Engineering, The University of Hong Kong, Hong Kong, China.
Nat Commun. 2022 Jul 18;13(1):4149. doi: 10.1038/s41467-022-31886-0.
Two-dimensional (2D) semiconducting monolayers such as transition metal dichalcogenides (TMDs) are promising channel materials to extend Moore's Law in advanced electronics. Synthetic TMD layers from chemical vapor deposition (CVD) are scalable for fabrication but notorious for their high defect densities. Therefore, innovative endeavors on growth reaction to enhance their quality are urgently needed. Here, we report that the hydroxide W species, an extremely pure vapor phase metal precursor form, is very efficient for sulfurization, leading to about one order of magnitude lower defect density compared to those from conventional CVD methods. The field-effect transistor (FET) devices based on the proposed growth reach a peak electron mobility 200 cm/Vs (800 cm/Vs) at room temperature (15 K), comparable to those from exfoliated flakes. The FET device with a channel length of 100 nm displays a high on-state current of ~400 µA/µm, encouraging the industrialization of 2D materials.
二维(2D)半导体单层,如过渡金属二硫属化物(TMDs),是有望在先进电子学中扩展摩尔定律的沟道材料。通过化学气相沉积(CVD)合成的TMD层可扩展用于制造,但因其高缺陷密度而声名狼藉。因此,迫切需要在生长反应方面进行创新努力以提高其质量。在此,我们报告,氢氧化物钨物种,一种极其纯净的气相金属前驱体形式,对硫化非常有效,与传统CVD方法相比,导致缺陷密度降低约一个数量级。基于所提出的生长方法的场效应晶体管(FET)器件在室温(15 K)下达到峰值电子迁移率200 cm²/V·s(800 cm²/V·s),与从剥离薄片获得的迁移率相当。沟道长度为100 nm的FET器件显示出~400 μA/μm的高导通态电流,这为二维材料的工业化提供了动力。
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