Ultralow Dark Current Room‐Temperature Infrared Photodetector Based on InSb Nanosheets/MoS2 Van der Waals Heterostructure.

As a narrow‐bandgap semiconductor, InSb is widely used in infrared (IR) detection due to its excellent performance and other characteristics such as ultrahigh electron mobility, extremely high quantum efficiency, and robust chemical properties. Herein, an ultralow dark current room‐temperature IR photodetector based on InSb nanosheets (NSs)/MoS2 flakes van der Waals (vdW) heterostructure is presented. Benefiting from a large surface‐to‐volume ratio and phonon scattering suppressed on the nanostructure, InSb NSs devices have high photosensitivity and low dark current density (16.67 A cm−2). To further suppress the dark current, a vdW heterojunction composed of InSb NSs and MoS2 is fabricated. When the InSb NSs/MoS2 vdW heterostructures' photodetector work on a photovoltaic model (zero‐bias operation), the device shows a dark current density as low as 0.12 A cm−2 at room temperature, exhibiting a high external quantum efficiency (EQE) of 3.6 × 102%, the responsivity of 3.8 A W−1, and detectivity of 1.2 × 109 cm Hz1/2 W−1 under 1310 nm laser illumination. These results demonstrate that InSb NSs vdW heterostructure is a feasible scheme to realize InSb room‐temperature IR detection. [ABSTRACT FROM AUTHOR]