Mid‐Infrared Photodetector Based on Selenium‐Doped Black Phosphorus

Abstract: Black phosphorus (BP), a new elemental 2D material, is a suitable candidate for broadband photodetection from the visible to the infrared (IR) range of the spectrum because of its tunable bandgap and high carrier mobility. Herein, the electrical and optical properties of pristine and Se‐doped BP have been investigated, using the density functional theory (DFT) method. The results show that the Se‐doped BP has an indirect bandgap of 0.4 eV which is smaller than that of the pristine monolayer BP. Moreover, the S… Show more

“…Moreover, the photodetector had effective photoresponse in the kilohertz frequency range due to the carrier dynamics of BP with a moderate bandgap. In addition, Jalaei et al reported a Se-doped BP photodetector with high responsivity ranging from 3 to 5 µm [143]. Se-doped BP showed smaller bandgap as well as higher absorption coefficient in the mid-infrared region compared to the pristine BP.…”

2D Material and Perovskite Heterostructure for Optoelectronic Applications

“…Moreover, the photodetector had effective photoresponse in the kilohertz frequency range due to the carrier dynamics of BP with a moderate bandgap. In addition, Jalaei et al reported a Se-doped BP photodetector with high responsivity ranging from 3 to 5 µm [143]. Se-doped BP showed smaller bandgap as well as higher absorption coefficient in the mid-infrared region compared to the pristine BP.…”

2D Material and Perovskite Heterostructure for Optoelectronic Applications

Functional two-dimensional black phosphorus nanostructures towards next-generation devices

High-Efficiency Photoelectric Detector Based on a p - n Homojunction of Monolayer Black Phosphorus