Miniature spectrometer based on graded bandgap perovskite filter

Peihan Sun; Xiangmin Hu; Shuhao Yuan; Yanyan Peng; Tingfa Xu; Haizheng Zhong

doi:10.1515/nanoph-2024-0112

Miniature spectrometer based on graded bandgap perovskite filter

Peihan Sun, Xiangmin Hu^*, Shuhao Yuan, Yanyan Peng, Tingfa Xu, Haizheng Zhong

^*Corresponding author for this work

School of Optics and Photonics

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

Miniature spectrometer is powerful tool for scientific research and industrial inspection. Here, we report the fabrication of graded perovskite filters with tunable bandgap and their application in constructing miniature spectrometer. The graded perovskite filters were fabricated using a Finkelstein reaction between in-situ formed halogen ion with a preformed MAPbX3 film. The graded bandgap of perovskite films can be well tunned from 400 to 750 nm by controlling the volume ratio between 5,5-dimethyl-1-pyrroline N-oxide and benzyl chloride(bromide). By combining a deep residual network, graded bandgap perovskite film and commercial CMOS sensor chip, a miniature spectrometer is demonstrated, achieving an accurate spectrum reconstruction (PSNR = 40.749) with monochromatic spectral resolution of 1.31 nm.

Original language	English
Pages (from-to)	3599-3607
Number of pages	9
Journal	Nanophotonics
Volume	13
Issue number	18
DOIs	https://doi.org/10.1515/nanoph-2024-0112
Publication status	Published - 1 Aug 2024

Keywords

diffusion
graded bandgap perovskite
ion-exchange
miniature spectrometer

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10.1515/nanoph-2024-0112

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title = "Miniature spectrometer based on graded bandgap perovskite filter",

abstract = "Miniature spectrometer is powerful tool for scientific research and industrial inspection. Here, we report the fabrication of graded perovskite filters with tunable bandgap and their application in constructing miniature spectrometer. The graded perovskite filters were fabricated using a Finkelstein reaction between in-situ formed halogen ion with a preformed MAPbX3 film. The graded bandgap of perovskite films can be well tunned from 400 to 750 nm by controlling the volume ratio between 5,5-dimethyl-1-pyrroline N-oxide and benzyl chloride(bromide). By combining a deep residual network, graded bandgap perovskite film and commercial CMOS sensor chip, a miniature spectrometer is demonstrated, achieving an accurate spectrum reconstruction (PSNR = 40.749) with monochromatic spectral resolution of 1.31 nm.",

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author = "Peihan Sun and Xiangmin Hu and Shuhao Yuan and Yanyan Peng and Tingfa Xu and Haizheng Zhong",

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T1 - Miniature spectrometer based on graded bandgap perovskite filter

AU - Sun, Peihan

AU - Hu, Xiangmin

AU - Yuan, Shuhao

AU - Peng, Yanyan

AU - Xu, Tingfa

AU - Zhong, Haizheng

PY - 2024/8/1

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N2 - Miniature spectrometer is powerful tool for scientific research and industrial inspection. Here, we report the fabrication of graded perovskite filters with tunable bandgap and their application in constructing miniature spectrometer. The graded perovskite filters were fabricated using a Finkelstein reaction between in-situ formed halogen ion with a preformed MAPbX3 film. The graded bandgap of perovskite films can be well tunned from 400 to 750 nm by controlling the volume ratio between 5,5-dimethyl-1-pyrroline N-oxide and benzyl chloride(bromide). By combining a deep residual network, graded bandgap perovskite film and commercial CMOS sensor chip, a miniature spectrometer is demonstrated, achieving an accurate spectrum reconstruction (PSNR = 40.749) with monochromatic spectral resolution of 1.31 nm.

AB - Miniature spectrometer is powerful tool for scientific research and industrial inspection. Here, we report the fabrication of graded perovskite filters with tunable bandgap and their application in constructing miniature spectrometer. The graded perovskite filters were fabricated using a Finkelstein reaction between in-situ formed halogen ion with a preformed MAPbX3 film. The graded bandgap of perovskite films can be well tunned from 400 to 750 nm by controlling the volume ratio between 5,5-dimethyl-1-pyrroline N-oxide and benzyl chloride(bromide). By combining a deep residual network, graded bandgap perovskite film and commercial CMOS sensor chip, a miniature spectrometer is demonstrated, achieving an accurate spectrum reconstruction (PSNR = 40.749) with monochromatic spectral resolution of 1.31 nm.

KW - diffusion

KW - graded bandgap perovskite

KW - ion-exchange

KW - miniature spectrometer

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Miniature spectrometer based on graded bandgap perovskite filter

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Keywords

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