Nb2SiTe4: A Stable Narrow-Gap Two-Dimensional Material with Ambipolar Transport and Mid-Infrared Response

Abstract

Two-dimensional (2D) materials with narrow band gaps (~0.3 eV) are of great importance for realizing ambipolar transistors and mid-infrared (MIR) detection. However, most of the 2D materials studied so far have band gaps that are too large. A few of them with suitable band gaps are not stable under ambient conditions. In this study, the layered Nb2SiTe4 is shown to be a stable 2D material with a band gap of 0.39 eV. Field-effect transistors based on few-layer Nb2SiTe4 show ambipolar transport with similar magnitude of electron and hole current and high charge-carrier mobility of ~ 100 cm2V-1s-1 at room temperature. Optoelectronic measurements of the devices show clear response to MIR wavelength of 3.1 μm with a high responsivity of ~ 0.66 AW-1. These results establish Nb2SiTe4 as a good candidate for ambipolar devices and MIR detection.