Lensless Polarimetric Imaging and Encryption Enabled by Te/ReSe<sub>2</sub> van der Waals Heterostructure Polarization-Sensitive Photodetector
Meifei Chen, Ziqiao Wu, Zhanxiong Qiu, Junhao Peng, Wei Gao, Mengmeng Yang, Le Huang, Jiandong Yao, Yu Zhao, Zhaoqiang Zheng, Ni Yao, Jingbo Li
Abstract
Polarimetric imaging and encryption improve target recognition precision and information security, enhancing image sensors’ perceptual acuity and interference resilience. However, the miniaturization of sensing systems faces challenges due to the complex integration of dispersive optical components such as polarizers. To address this, we propose a polarization-sensitive photodetector using a Te/ReSe 2 van der Waals heterostructure. This design leverages type-II band alignment for efficient photocarrier segregation. The anisotropic crystal orientations of ReSe 2 and Te layers integrate photon absorption with photocarrier extraction, boosting the functionality. The Te/ReSe 2 device offers a broad spectral photoresponse (300–965 nm), a high polarization ratio of 8.9, and a fast response time of 55.4/55.7 μs at 635 nm. These properties enable high-resolution polarimetric imaging and precise image processing. This study provides a blueprint for developing miniaturized polarization-sensitive photodetectors and advancing lensless polarimetric optoelectronics.