Litcius/Paper detail

Realizing Ultrafast Response Speed for Self-Powered Photodetectors with a Molecular-Doped Lateral InSe Homojunction

Xiaofeng Fan, Sixian He, Pu Feng, Yuke Xiao, Chengdong Yin, Yuan Du, Ming Li, Liancheng Zhao, Liming Gao

2024The Journal of Physical Chemistry Letters13 citationsDOI

Abstract

The implementation of energy-saving policies has stimulated intensive interest in exploring self-powered optoelectronic devices. The 2D p-n homojunction exhibits effective generation and separation of carriers excited by light, realizing lower power consumption and higher performance photodetectors. Here, a self-powered photodetector with high performance is fabricated based on an F4-TCNQ localized molecular-doped lateral InSe homojunction. Compared with the intrinsic InSe photodetector, the switching light ratio ( I light / I dark ) of the p-n homojunction device can be enhanced by 2.2 × 10 4, and the temporal response is also dramatically improved to 24/30 μs. Benefiting from the built-in electric field, due to the formation of an InSe p-n homojunction after partial doping of F4-TCNQ on InSe, the device possesses a high responsivity ( R ) of 93.21 mA/W, with a specific detectivity ( D *) of 1.14 × 10 11 Jones. These results suggest a promising approach to get a lateral InSe p-n homojunction and reveal the potential application of the device for next generation low-consumption photodetectors.

Topics & Concepts

HomojunctionPhotodetectorUltrashort pulseDopingOptoelectronicsMaterials scienceOpticsPhysicsLaserPerovskite Materials and Applications2D Materials and ApplicationsChalcogenide Semiconductor Thin Films
Realizing Ultrafast Response Speed for Self-Powered Photodetectors with a Molecular-Doped Lateral InSe Homojunction | Litcius