posted on 2024-06-24, 15:33authored byHaoyu Li, Tian Zhang, Zixuan Yi, Xingyu Chen, Zhigao Dai, Jin Tan
The development of new high-performance
photodetectors (PDs) is
currently focused on achieving small size, low power consumption,
low cost, and large bandwidth. Two-dimensional (2D) materials and
heterostructures offer promising approaches for the future development
of optoelectronic devices. However, there has been limited research
on 2D wide-bandgap semiconductor heterostructures. In this study,
we successfully constructed a MoS2/MoO3 vdW
heterojunction PD. This PD exhibited excellent response and significant
photovoltaic behavior in the ultraviolet (UV) to visible (Vis) range.
Under 365 nm UV light and 1 V bias voltage, the PD demonstrated a
high responsivity of 645 mA/W, a high specific detectivity of 8.98
× 1010 Jones, and fast response speeds of 55.9/59.6
ms. At 0 V bias voltage, the responsivity reached as high as 157 mA/W.
Furthermore, the PD exhibited remarkable stability in its performance.
These outstanding characteristics can be attributed to the strong
internal electric field created by the type II heterojunction structure
and the chemical stability of the materials. This work opens a route
for the application of 2D wide-bandgap semiconductor materials in
optoelectronic devices.