posted on 2024-05-02, 11:33authored byChaoyi Zhang, Silu Peng, Yuchao Wei, Chunyu Li, Jiayue Han, Hongxi Zhou, Yadong Jiang, Jun Wang
Bismuth telluride (Bi2Te3) presents
a promising
option for producing high-performance semiconductor devices such as
transistors and photodetectors thanks to its intriguing electrical
properties as a topological insulator (TI). This study focuses on
the precise nanoscale physical vapor deposition (PVD) growth of two-dimensional
(2D) Bi2Te3 nanosheets and investigates their
potential in high-performance photodetectors. In order to maximize
the performance of Bi2Te3 nanosheet devices,
we constructed a Bi2Te3/WSe2 heterojunction
by a vertical stacking method, and the devices exhibited obvious current
rectification behavior in the dark, effectively realizing the detection
from visible light to near-infrared wavebands photodetection with
excellent performance, including high responsivity (R = 7.6 A/W), the outstanding specific detectivity (D* = 3.01 × 1011 Jones), and fast response time (214/276
μs). The results of this work not only help to understand the
PVD growth mechanism of Bi2Te3 nanosheets but
also provide ideas for the construction of 2D Bi2Te3 nanostructured optoelectronic heterojunction devices.