Two-dimensional (2D) materials, such as molybdenum disulfide (MoS2), have been shown to exhibit excellent electrical and optical properties. The semiconducting nature of MoS2 allows it to overcome the shortcomings of zero-bandgap graphene, while still sharing many of graphene's advantages for electronic and optoelectronic applications. Discrete electronic and optoelectronic components, such as field-effect transistors, sensors and photodetectors made from few-layer MoS2 show promising performance as potential substitute of Si in conventional electronics and of organic and amorphous Si semiconductors in ubiquitous systems and display applications. An important next step is the fabrication of fully integrated multi-stage circuits and logic building blocks on MoS2 to demonstrate its capability for complex digital logic and high-frequency ac applications. This paper demonstrates an inverter, a NAND gate, a static random access memory, and a five-stage ring oscillator based on a direct-coupled transistor logic technology. The circuits comprise between two to twelve transistors seamlessly integrated side-by-side on a single sheet of bilayer MoS2. Both enhancement-mode and depletion-mode transistors were fabricated thanks to the use of gate metals with different work functions.
@article{arxiv.1208.1078,
title = {Integrated Circuits Based on Bilayer MoS2 Transistors},
author = {Han Wang and Lili Yu and Yi-Hsien Lee and Yumeng Shi and Allen Hsu and Matthew Chin and Lain-Jong Li and Madan Dubey and Jing Kong and Tomas Palacios},
journal= {arXiv preprint arXiv:1208.1078},
year = {2012}
}
Comments
23 pages, 5 figures, Supplementary Information, Accepted for publication in Nano Letters