van der Waals (vdW) heterojunctions formed by two-dimensional (2D) materials have attracted tremendous attention due to their excellent electrical/optical properties and device applications. However, current 2D heterojunctions are largely limited to atomic crystals, and hybrid organic/inorganic structures are rarely explored. Here, we fabricate the hybrid 2D heterostructures with p-type dioctylbenzothienobenzothiophene (C8-BTBT) and n-type MoS2. We find that few-layer C8-BTBT molecular crystals can be grown on monolayer MoS2 by vdW epitaxy, with pristine interface and controllable thickness down to monolayer. The operation of the C8-BTBT/MoS2 vertical heterojunction devices is highly tunable by bias and gate voltages between three different regimes: interfacial recombination, tunneling, and blocking. The pn junction shows diode-like behavior with rectifying ratio up to 105 at the room temperature. Our devices also exhibit photovoltaic responses with a power conversion efficiency of 0.31% and a photoresponsivity of 22 mA/W. With wide material combinations, such hybrid 2D structures will offer possibilities for opto-electronic devices that are not possible from individual constituents.
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机译:由二维(2D)材料形成的范德华(vdW)异质结由于其出色的电/光学特性和器件应用而引起了极大的关注。但是,当前的2D异质结在很大程度上限于原子晶体,并且很少探索混合的有机/无机结构。在这里,我们制作了具有p型二辛基苯并噻吩并苯并噻吩(C8-BTBT)和n型MoS2的杂化2D异质结构。我们发现通过vdW外延可以在单层MoS2上生长几层C8-BTBT分子晶体,其原始界面和可控制的厚度直至单层。 C8-BTBT / MoS2垂直异质结器件的操作可通过以下三种不同状态之间的偏压和栅极电压进行高度可调:界面重组,隧穿和阻塞。 pn结在室温下显示出类似于二极管的行为,整流比高达105。我们的设备还表现出光伏响应,功率转换效率为0.31%,光响应率为22 mA / W。通过广泛的材料组合,这样的混合2D结构将为光电设备提供各种可能性,而单个组件不可能做到。
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