光探测
材料科学
光电子学
宽带
异质结
范德瓦尔斯力
光学
光电探测器
物理
量子力学
分子
作者
Lebin Shi,Weijing Liu,Hua Meng,Jinlong Wu,Jiaxiang Qiu,Ruirui Wang,Fuzhan Song,Jianming Zhang,Shun Li,Yangyang Wan,Xiaohong Yan
标识
DOI:10.1002/adom.202500153
摘要
Abstract Broadband photodetectors capable of detecting light from ultraviolet (UV) to near‐infrared (NIR) wavelengths are crucial for advanced optoelectronic applications. Here, the fabrication and characterization of a SnSe/MoS 2 van der Waals heterojunction photodetector with exceptional broadband sensitivity and ultrahigh responsivity are reported. Theoretical calculations and experimental analyses reveal a type‐II band alignment in the heterojunction, enabling efficient charge separation and transport. The photodetector demonstrates a high current on/off ratio (≈10 3 ) and outstanding responsivity, achieving 518 A W −1 at 380 nm, 540 A W −1 at 600 nm, and 25 A W −1 at 900 nm under a 1 V bias. Furthermore, the device exhibits a specific detectivity of up to 1.93 × 10 12 cm Hz 1/2 ·W −1 and an external quantum efficiency exceeding 195 000%. Raman spectroscopy and atomic force microscopy confirm the high quality of the SnSe and MoS 2 films and the successful formation of the heterojunction. Time‐dependent photoresponse and power‐dependent measurements demonstrate stable, repeatable performance across the UV, visible, and NIR spectra. This work highlights the SnSe/MoS 2 heterojunction as a promising platform for broadband, energy‐efficient photodetection, offering significant potential for applications in optical communication, imaging, and sensing technologies.
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