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All‐Silicon Broadband Infrared Photodetectors With In‐Plane Photon Trapping Structures

Ke Deng, Jiaxiang Guo, Kun Zhang, Yunlong Xiao, Qing Li, Tao Zhang, Dezheng Guo, Ting He, Zhiping He, Peng Wang, Ning Li, Weida Hu

2025Advanced Materials27 citationsDOIOpen Access PDF

Abstract

Abstract Silicon (Si) photonics has been widely explored for many various applications, including optical communication, optoelectronic computing, spectroscopy, and image sensing. As a key component for optoelectronic signal conversion in these applications, Si‐based infrared photodetectors have attracted extensive attention. However, achieving all‐Si on‐chip photodetection in the very long‐wavelength infrared (VLWIR) range remains challenging, with broadband enhancement and improved operating temperature being pressing issues that need to be addressed. An all‐Si photodetector design is presented using in‐plane photon trapping structures (IPTS) to enhance detection efficiency and improve the operating temperature of the photodetector at the VLWIR range. The photodetector achieves a broadband enhancement of 285–575% (across 12–19 µm) and a 31% reduction in dark current. Additionally, it exhibits an impressive peak specific detectivity of 1.9 × 10 10 cm Hz 1/2 W −1 at 15 µm, operating at a temperature of 40 K. This study introduces a novel all‐Si optoelectronic device architecture that offers a promising solution for improving the operating temperature and sensitivity of broadband VLWIR devices, making the whole system more compact and cost‐effective.

Topics & Concepts

PhotodetectorMaterials scienceOptoelectronicsPhotodetectionBroadbandPhotonicsInfraredSiliconOperating temperatureDark currentOpticsPhysicsThermodynamicsPhotonic and Optical DevicesNanowire Synthesis and ApplicationsAdvanced Optical Sensing Technologies