A room temperature 2 × 128 PtSi/Si-nanostructure photodetector array compatible with CMOS process

Abstract: Purpose – The purpose of this paper is to demonstrate a successful fabrication of 2 × 128 linear array of typical infrared (IR) detectors made of p-type tSi/porous Si Schottky barrier. Design/methodology/approach – Using metal-assisted chemical etching (MaCE) as a unique approach, a sample definition of a porous Si nanostructure region for fabricating of any high-density photodetectors array has been formulated. Besides, the uniformity o… Show more

“…he photodetector is an essential tool for exploring the unknown world and fields, where it performs optical-toelectrical signal conversion [1]. Especially, infrared (IR) photodetector is the building block of an optoelectronic link in many vital fields, such as communication, imaging, aerospace, medical and military [2][3][4]. Various IR photodetectors developed from narrow-band-gap semiconductors (PbS, InSb, InGaAs, and HgCdTe) have shown outstanding responsivity, quantum efficiency, speed, and spectra range [5].…”

Graphene Nanofilms/Silicon Near-Infrared Avalanche Photodetectors

“…he photodetector is an essential tool for exploring the unknown world and fields, where it performs optical-toelectrical signal conversion [1]. Especially, infrared (IR) photodetector is the building block of an optoelectronic link in many vital fields, such as communication, imaging, aerospace, medical and military [2][3][4]. Various IR photodetectors developed from narrow-band-gap semiconductors (PbS, InSb, InGaAs, and HgCdTe) have shown outstanding responsivity, quantum efficiency, speed, and spectra range [5].…”

Graphene Nanofilms/Silicon Near-Infrared Avalanche Photodetectors

Structural and electronic properties of PtnSi12 (n = 1–4) clusters: Quantum chemical calculations

High responsivity and high-speed 1.55 μm infrared photodetector from self-powered graphene/Si heterojunction