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PtSe<sub>2</sub>/InP Mixed‐Dimensional Schottky Junction for High‐Performance Self‐Powered Near‐Infrared Photodetection

Jiang Wang, Can Fu, Mengting Jiang, Yi Hu, Yuanda Liu, Menglei Zhu, Jie Yu, Jichao Fu, Ronghui Lin, Di Wu, Zackaria Mahfoud, Sim Ai Jia, Feng‐Xia Liang, Li Li, Jinghua Teng, Lin‐Bao Luo

2024Advanced Optical Materials23 citationsDOIOpen Access PDF

Abstract

Abstract Self‐powered near‐infrared (NIR) photodetectors utilizing low‐dimensional materials are promising owing to their low‐power‐consumption and superior photoresponse performance. The strong light‐matter interaction and other intriguing physical mechanisms (such as high mobility, dangling‐bond‐free surface) in 2D semiconductor materials, combined with the flexible fabrication of device structures, create new opportunities for the optoelectronic devices. Here, a self‐powered NIR Schottky junction photodetector is demonstrated by vertically stacking 2D PtSe 2 film atop an InP wafer. The strong built‐in electric field formed at PtSe 2 /InP interface endows the device with self‐powered operation with an ultralow dark current of 45 pA at room temperature under 0 V bias. The responsivity and detectivity at 940 nm illumination reach up to 0.718 A W −1 and 4.37 × 10 12 Jones, respectively. Furthermore, TCAD simulations showed that the significant electric field at the PtSe 2 /InP interface is pivotal for its superior self‐powered detection performance. Remarkably, the device achieves a high I light /I dark ratio exceeding 10 5 and a fast response time of 4.35/5.66 µs, and sensitivity to NIR light polarization. This study provides a new perspective for the integration of hybrid 2D materials with 3D semiconductors in the next‐generation optoelectronic devices and integrated systems.

Topics & Concepts

PhotodetectionMaterials scienceOptoelectronicsInfraredSchottky diodeSchottky barrierOpticsPhotodetectorPhysicsDiode2D Materials and ApplicationsAdvanced Semiconductor Detectors and MaterialsNanowire Synthesis and Applications