A case study of two-dimensional Bi2O2Se nanoplate near-infrared photodetectors from the perspective of practical applications

Han Wang, Zekai Zhang, Huijia Luo, Songqing Zhang, Wenwu Pan, Junliang Liu, Yongling Ren, Wen Lei

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)

Abstract

Over the past several decades infrared (IR) photodetectors have received wide attention due to their important applications. 2D materials, distinguished by their unique electronic structures, ultimate dimensional confinement, and robust light-matter interactions, provide a promising candidate for fabricating future IR photodetectors. However, there is a lack of reports concerning the practical industrial applications of these 2D photodetectors, despite that some of these 2D photodetectors have demonstrated performance exceeding that of commercial photodetectors. In this work, a case study on 2D Bi2O2Se nanoplate near-infrared photodetectors from the perspective of practical applications is presented. With the characterization method used for nano detectors, the 2D Bi2O2Se photodetector exhibits a responsivity of 212.5 A W−1, a specific detectivity of 4.99 × 1011 Jones and an external quantum efficiency of 26 887.68% at wavelength of 980 nm, while with the traditional characterization method the photodetector shows a responsivity of 0.13 A W−1 and a specific detectivity of 2.26 × 106 Jones and an external quantum efficiency of 17.87% at wavelength of 900 nm. The Bi2O2Se nanoplate photodetector also presents good passive imaging quality in the near-infrared wavelength region. These results suggest the great potential of Bi2O2Se nanoplate photodetectors for practical applications.
Original languageEnglish
Article number2401404
Number of pages13
JournalAdvanced Optical Materials
Volume12
Issue number30
Early online date22 Jul 2024
DOIs
Publication statusPublished - 24 Oct 2024

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