Mixed-Dimensional PtSe<sub>2</sub>/Bi<sub>2</sub>Te<sub>3</sub>/Pyramid Si Heterojunction with a Light-Trapping Structure for Highly Sensitive Ultrabroadband Photodetection
Xin Li, Kunxuan Liu, Ranran Zhuo, Longhui Zeng, Pei Lin, Liang Li, Zhifeng Shi, Yongtao Tian, Xinjian Li, Di Wu
Abstract
Broadband photodetectors have garnered widespread attention in the realm of modern optoelectronic devices and systems due to their pivotal role in various applications. Topological insulators have emerged as promising candidates for broadband photodetection by leveraging their distinct electrical and optoelectrical properties. Here, we report the successful fabrication of a topological insulator Bi 2 Te 3 /pyramidal Si heterojunction, incorporating a top two-dimensional PtSe 2 layer for highly sensitive broadband photodetection and image sensing. Owing to the light trapping structure of pyramidal Si and the broad light absorption spectrum of the mixed-dimensional hybrid structure, the photodetector exhibits a self-powered ultrabroadband response range spanning of 265 nm to 10.6 μm, with a responsivity of up to 620 mW/A, a specific detectivity of 1.37 × 10 12 cm Hz 1/2 W –1, and a fast response speed of 0.45/18 μs. Additionally, the integrated PtSe 2 /Bi 2 Te 3 /pyramid Si detector array has demonstrated exceptional broadband imaging capabilities. This study provides a feasible pathway for realizing highly sensitive broadband photodetection and imaging applications.