All authors read and approved the final manuscript.”
“Background The structure of molybdenum disulfide (MoS2), a layered transition metal dichalcogenide (TMD), comprises S-Mo-S in a hexagonal close-packed arrangement. Covalent bonds exist between the atoms in each layer, while the layers interact via weak van der Waals forces. Similar to extracting graphene from graphite [1], bulk MoS2 is easily split into single-layer (SL) or few-layer (FL) MoS2 sheets. Compared with graphene, single and multilayer MoS2 have a larger bandgap [2–6]. The presence of a large bandgap makes MoS2 more attractive than gapless graphene for logic circuits SAHA HDAC cell line and amplifier devices. Single and multilayer MoS2
field effect transistors (FETs) have been prepared with on/off current ratio exceeding 108 at room temperature, effective mobility as high as 700 cm2/Vs and steep subthreshold swing (74 mV/decade) [7–13]. MoS2 also shows great promise for optoelectronics [14, 15] and energy harvesting [16, 17] and other nanoelectronic applications. MoS2 sheets are most commonly fabricated by micromechanical exfoliation Omipalisib supplier (Scotch-tape peeling) [18, 19]. Lithium-based intercalation
[20, 21], liquid-phase exfoliation [22], and other methods [23–25] have also been used to synthesize single-layer and few-layer MoS2. However, the yield and reproducibility of micromechanical exfoliation are poor, and the complexity of the other methods presents disadvantages to their use. Chemical vapor deposition (CVD) is a simple and scalable method for the synthesis of transition metal dichalcogenide thin films having large area. Liu et al. and Zhan et al. have successfully synthesized large-area Bumetanide MoS2 films via CVD [26, 27]. Much research has been done on single and multilayer MoS2 FETs where the MoS2 layer is fabricated by micromechanical exfoliation then transferred
to Si substrates. However, few studies have addressed the electrical properties of back-gated MoS2 field effect transistors with Ni as contact electrodes. This study is the first to report back-gated FETs based on MoS2 nanodiscs synthesized directly using CVD. The MoS2 nanodiscs fabricated via CVD are large and uniform. We herein report upon their surface morphologies, structures, carrier concentration, and mobility, as well as the output characteristics and transfer characteristics of FETs based on these obtained MoS2 nanodiscs, with Ni as contact electrodes. Methods MoS2 nanodiscs were deposited via CVD on n-type silicon (111) substrates covered with a 280-nm SiO2 layer. Figure 1a illustrates the CVD experimental setup, which is composed of five parts: a temperature control heating device, a vacuum system, an intake system, a gas meter, and a water bath. The Si substrates were placed in the center of a horizontal quartz tube furnace, after being ultrasonically cleaned with a sequence of ethanol and deionized water and dried with N2.
Related posts:
- While amorphous carbons were formed on CaF2 and BaF2, nanocrystal
- AS-1404 DMXAA available in PMC 2012 March 1. NIH-PA Author Manuscript NIH-PA Author Manuscript
- JAK Signaling Pathway bromine with secondary Amines moved to the final compounds
- Benazepril RAAS inhibitor was approved by the Ethics Committee of the University
- However, in the final analysis a name is useful only if it is usa