Perovskite single-pixel detector for dual-color metasurface imaging recognition in complex environment

Jiahao Xiong; Zhi-Hong Zhang; Zile Li; Peixia Zheng; Jiaxin Li; Xuan Zhang; Zihan Gao; Zhipeng Wei; Guoxing Zheng; Shuang-Peng Wang; Hong-Chao Liu

doi:10.1038/s41377-023-01311-2

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Perovskite single-pixel detector for dual-color metasurface imaging recognition in complex environment

Original Articles

- Perovskite single-pixel detector for dual-color metasurface imaging recognition in complex environment
- Light: Science & Applications Vol. 12, Issue 12, Pages: 2723-2731(2023)
- Affiliations：
  
  1.Institute of Applied Physics and Materials Engineering, University of Macau, Taipa, Macao SAR, China
  2.State Key Laboratory of High Power Semiconductor Lasers, Changchun University of Science and Technology, Changchun, China
  3.Electronic Information School, and School of Microelectronics, Wuhan University, Wuhan, China
  4.Peng Cheng Laboratory, Shenzhen, China
- Author bio：
  
  Guoxing Zheng (gxzheng@whu.edu.cn)
  Shuang-Peng Wang (spwang@um.edu.mo)
  Hong-Chao Liu (hcliu@um.edu.mo)
- Funds：
- DOI：10.1038/s41377-023-01311-2
  CLC：
- Published：31 December 2023，
  
  Published Online：27 November 2023，
  
  Received：14 June 2023，
  
  Revised：10 October 2023，
  
  Accepted：16 October 2023
- Accepted：
Scan QR Code
Xiong, J. H. et al. Perovskite single-pixel detector for dual-color metasurface imaging recognition in complex environment. Light: Science & Applications, 12, 2723-2731 (2023).
DOI：

Xiong, J. H. et al. Perovskite single-pixel detector for dual-color metasurface imaging recognition in complex environment. Light: Science & Applications, 12, 2723-2731 (2023). DOI： 10.1038/s41377-023-01311-2.

摘要

Abstract

Highly efficient multi-dimensional data storage and extraction are two primary ends for the design and fabrication of emerging optical materials. Although metasurfaces show great potential in information storage due to their modulation for different degrees of freedom of light

a compact and efficient detector for relevant multi-dimensional data retrieval is still a challenge

especially in complex environments. Here

we demonstrate a multi-dimensional image storage and retrieval process by using a dual-color metasurface and a double-layer integrated perovskite single-pixel detector (DIP-SPD). Benefitting from the photoelectric response characteristics of the FAPbBr

2.4

0.6

and FAPbI

films and their stacked structure

our filter-free DIP-SPD can accurately reconstruct different colorful images stored in a metasurface within a single-round measurement

even in complex environments with scattering media or strong background noise. Our work not only provides a compact

filter-free

and noise-robust detector for colorful image extraction in a metasurface

but also paves the way for color imaging application of perovskite-like bandgap tunable materials.

关键词

Keywords

references

Zhuang, Y. et al. Optical data storage and multicolor emission readout on flexible filmsusing deep-trap persistent luminescence materials.Adv. Funct. Mater.28, 1705769 (2018)..

Chen, S. et al. An artificial flexible visual memory system based on an UV-motivated memristor.Adv. Mater.30, 1705400 (2018)..

Wiecha, P. R. et al. Pushing the limits of optical information storage using deep learning.Nat. Nanotechnol.14, 237–244 (2019)..

Schadt, E. E. et al. Computational solutions to large-scale data management and analysis.Nat. Rev. Genet.11, 647–657 (2010)..

Huang, C. et al. Reconfigurable metasurface for multifunctional control of electromagnetic waves.Adv. Opt. Mater.5, 1700485 (2017)..

Song, M. et al. Versatile full-colour nanopainting enabled by a pixelated plasmonic metasurface.Nat. Nanotechnol.18, 71–78 (2023)..

Huang, L. et al. Three-dimensional optical holography using a plasmonic metasurface.Nat. Commun.4, 2808 (2013)..

Du, K. et al. Optical metasurfaces towards multifunctionality and tunability.Nanophotonics11, 1761–1781 (2022)..

Ouyang, X. et al. Synthetic helical dichroism for six-dimensional optical orbital angular momentum multiplexing.Nat. Photon.15, 901–907 (2021)..

Li, L. et al. Intelligent metasurfaces: control, communication and computing.eLight2, 7 (2022)..

Zhou, Q. et al. Generation of perfect vortex beams by dielectric geometric metasurface for visible light.Laser Photonics Rev.15, 2100390 (2021)..

Ye, W. et al. Spin and wavelength multiplexed nonlinear metasurface holography.Nat. Commun.7, 11930 (2016)..

Yin, S. et al. Floquet metamaterials.eLight2, 8 (2022)..

Intaravanne, Y. et al. Color-selective three-dimensional polarization structures.Light Sci. Appl.11, 302 (2022)..

Mueller, J. B. et al. Metasurface polarization optics: independent phase control of arbitrary orthogonal states of polarization.Phys. Rev. Lett.118, 113901 (2017)..

Chen, J. et al. Polychromatic full-polarization control in mid-infrared light.Light Sci. Appl.12, 105 (2023)..

Liu, L. et al. Broadband metasurfaces with simultaneous control of phase and amplitude.Adv. Mater.26, 5031–5036 (2014)..

Wu, R. Y. et al. Multi-frequency amplitude-programmable metasurface for multi-channel electromagnetic controls.Nanophotonicshttps://doi.org/10.1515/nanoph-2022-0764https://doi.org/10.1515/nanoph-2022-0764(2023)..

Ren, H. et al. Complex-amplitude metasurface-based orbital angular momentum holography in momentum space.Nat. Nanotechnol.15, 948–955 (2020)..

Xu, H.-X. et al. Super-reflector enabled by non-interleaved spin-momentum-multiplexed metasurface.Light Sci. Appl.12, 78 (2023)..

Chen, W. Q. et al. Spin-selective absorption and geometric-phase modulation via chiral metasurface in triple bands.Adv. Opt. Mater. https://doi.org/10.1002/adom.202300304 (2023).

Lee, G.-Y. et al. Complete amplitude and phase control of light using broadband holographic metasurfaces.Nanoscale10, 4237–4245 (2018)..

Liu, F. et al. High-efficiency metasurface-based surface-plasmon lenses.Laser Photonics Rev. https://doi.org/10.1002/lpor.202201001 (2023).

Intaravanne, Y. et al. Phase manipulation-based polarization profile realization and hybrid holograms using geometric metasurface.Adv. Photonics Res.2, 2000046 (2021)..

Zheng, G. et al. Metasurface holograms reaching 80% efficiency.Nat. Nanotechnol.10, 308–312 (2015)..

Li, J. et al. A reusable metasurface template.Nano Lett.20, 6845–6851 (2020)..

Li, J. et al. Addressable metasurfaces for dynamic holography and optical information encryption.Sci. Adv.4, eaar6768 (2018)..

Deng, Y. et al. Recent progress in metasurface-enabled optical waveplates.Nanophotonics11, 2219–2244 (2022)..

Yang, W. et al. Dynamic bifunctional metasurfaces for holography and color display.Adv. Mater.33, 2101258 (2021)..

Wang, Z. et al. Real-time tunable nanoprinting-multiplexing with simultaneous meta-holography displays by stepwise nanocavities.Adv. Funct. Mater.32, 2110022 (2022)..

Cao, Y. et al. Direct generation of 2D arrays of random numbers for high-fidelity optical ghost diffraction and information transmission through scattering media.Opt. Lasers Eng.158, 107141 (2022)..

Wang, F. et al. Recent progress on electrical and optical manipulations of perovskite photodetectors.Adv. Sci.8, 2100569 (2021)..

Ahmadi, M., Wu, T.&Hu, B. A review on organic-inorganic halide perovskite photodetectors: device engineering and fundamental physics.Adv. Mater.29, 1605242 (2017)..

García de Arquer, F. P. et al. Solution-processed semiconductors for next-generation photodetectors.Nat. Rev. Mater.2, 1–17 (2017)..

Gong, M. et al. High-performance all-inorganic CsPbCl3perovskite nanocrystal photodetectors with superior stability.ACS nano13, 1772–1783 (2019)..

Kwak, D.-H. et al. High performance hybrid graphene-CsPbBr3−xIxperovskite nanocrystal photodetector.RSC Adv.6, 65252–65256 (2016)..

Qiao, B. S. et al. Photosensitive dielectric 2D perovskite based photodetector for dual wavelength demultiplexing.Adv. Mater.35, 2300632 (2023)..

Ji, Z. et al. Achieving 256×256-pixel color images by perovskite-based photodetectors coupled with algorithms.Adv. Funct. Mater.31, 2104320 (2021)..

Liu, Y. et al. Perovskite-based color camera inspired by human visual cells.Light Sci. Appl.12, 43 (2023)..

Ji, Z. et al. Perovskite wide-angle field-of-view camera.Adv. Mater.34, 2206957 (2022)..

He, J. et al. Achieving dual-color imaging by dual-band perovskite photodetectors coupled with algorithms.J. Colloid Interface Sci.625, 297–304 (2022)..

Zhang, Z. H. et al. Ultrasensitive perovskite photodetector for filter-free color single-pixel imaging.Adv. Opt. Mater.11, 2201847 (2022)..

Sun, C. et al. Perovskite light-emitting diodes toward commercial full-colour displays: progress and key technical obstacles.Light Adv. Manuf.4, 15 (2023)..

Ferri, F. et al. Differential ghost imaging.Phys. Rev. Lett.104, 253603 (2010)..

Zeng, L. H. et al. Multilayered PdSe2/perovskite Schottky junction for fast, self-powered, polarization-sensitive, broadband photodetectors, and image sensor application.Adv. Sci.6, 1901134 (2019)..

Liu, Y. et al. Triple-cation and mixed-halide perovskite single crystal for high-performance X-ray imaging.Adv. Mater.33, 2006010 (2021)..

Wei, W. et al. Monolithic integration of hybrid perovskite single crystals with heterogenous substrate for highly sensitive X-ray imaging.Nat. Photon.11, 315–321 (2017)..

Wei, H.&Huang, J. Halide lead perovskites for ionizing radiation detection.Nat. Commun.10, 1066 (2019)..

Li, C. et al. Ultrafast and broadband photodetectors based on a perovskite/organic bulk heterojunction for large-dynamic-range imaging.Light Sci. Appl.9, 31 (2020)..

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