Tunable Electrical and Optical Characteristics in Monolayer Graphene and Few-Layer MoS2 Heterostructure Devices

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• 作者：Servin Rathi ; Inyeal Lee ; Dongsuk Lim ; Jianwei Wang ; Yuichi Ochiai ; Nobuyuki Aoki ; Kenji Watanabe ; Takashi Taniguchi ; Gwan-Hyoung Lee ; Young-Jun Yu ; Philip Kim ; Gil-Ho Kim
• 刊名：Nano Letters
• 出版年：2015
• 出版时间：August 12, 2015
• 年：2015
• 卷：15
• 期：8
• 页码：5017-5024
• 全文大小：667K
• ISSN：1530-6992

文摘

Lateral and vertical two-dimensional heterostructure devices, in particular graphene鈥揗oS₂, have attracted profound interest as they offer additional functionalities over normal two-dimensional devices. Here, we have carried out electrical and optical characterization of graphene鈥揗oS₂ heterostructure. The few-layer MoS₂ devices with metal electrode at one end and monolayer graphene electrode at the other end show nonlinearity in drain current with drain voltage sweep due to asymmetrical Schottky barrier height at the contacts and can be modulated with an external gate field. The doping effect of MoS₂ on graphene was observed as double Dirac points in the transfer characteristics of the graphene field-effect transistor (FET) with a few-layer MoS₂ overlapping the middle part of the channel, whereas the underlapping of graphene have negligible effect on MoS₂ FET characteristics, which showed typical n-type behavior. The heterostructure also exhibits a strongest optical response for 520 nm wavelength, which decreases with higher wavelengths. Another distinct feature observed in the heterostructure is the peak in the photocurrent around zero gate voltage. This peak is distinguished from conventional MoS₂ FETs, which show a continuous increase in photocurrent with back-gate voltage. These results offer significant insight and further enhance the understanding of the graphene鈥揗oS₂ heterostructure.