Two-dimensional (2D) semiconductors have been proposed for heterogeneous integration with existing silicon technology; however, their chemical vapor deposition (CVD) growth temperatures are often too high. Here, we demonstrate direct CVD solid-source precursor synthesis of continuous monolayer (1L) MoS2 films at 560 C in 50 min, within the 450-to-600 C, 2 h thermal budget window required for back-end-of-the-line compatibility with modern silicon technology. Transistor measurements reveal on-state current up to ~140 μA/μm at 1 V drain-to-source voltage for 100 nm channel lengths, the highest reported to date for 1L MoS2 grown below 600 C using solid-source precursors. The effective mobility from transfer length method test structures is 29±5cm2V−1s−1 at 6.1×1012cm−2 electron density, which is comparable to mobilities reported from films grown at higher temperatures. The results of this work provide a path toward the realization of high-quality, thermal-budget-compatible 2D semiconductors for heterogeneous integration with silicon manufacturing.
@article{arxiv.2109.01927,
title = {Toward Low-Temperature Solid-Source Synthesis of Monolayer MoS2},
author = {Alvin Tang and Aravindh Kumar and Marc Jaikissoon and Krishna Saraswat and H. -S. Philip Wong and Eric Pop},
journal= {arXiv preprint arXiv:2109.01927},
year = {2021}
}