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Radiative lifetime-encoded unicolour security tags using perovskite nanocrystals

Author

Listed:
  • Sergii Yakunin

    (Department of Chemistry and Applied Bioscience, ETH Zürich
    Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Jana Chaaban

    (Laboratory of Thermodynamics in Emerging Technologies)

  • Bogdan M. Benin

    (Department of Chemistry and Applied Bioscience, ETH Zürich
    Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Ihor Cherniukh

    (Department of Chemistry and Applied Bioscience, ETH Zürich
    Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Caterina Bernasconi

    (Department of Chemistry and Applied Bioscience, ETH Zürich
    Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Annelies Landuyt

    (Department of Chemistry and Applied Bioscience, ETH Zürich
    Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Yevhen Shynkarenko

    (Department of Chemistry and Applied Bioscience, ETH Zürich
    Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Sami Bolat

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Christoph Hofer

    (Swiss Center for Electronics and Microtechnology (CSEM))

  • Yaroslav E. Romanyuk

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Stefano Cattaneo

    (Swiss Center for Electronics and Microtechnology (CSEM))

  • Sergey I. Pokutnyi

    (Chuiko Institute of Surface Chemistry of National Academy of Sciences of Ukraine)

  • Richard D. Schaller

    (Center for Nanoscale Materials, Argonne National Laboratory
    Northwestern University)

  • Maryna I. Bodnarchuk

    (Empa – Swiss Federal Laboratories for Materials Science and Technology)

  • Dimos Poulikakos

    (Laboratory of Thermodynamics in Emerging Technologies)

  • Maksym V. Kovalenko

    (Department of Chemistry and Applied Bioscience, ETH Zürich
    Empa – Swiss Federal Laboratories for Materials Science and Technology)

Abstract

Traditional fluorescence-based tags, used for anticounterfeiting, rely on primitive pattern matching and visual identification; additional covert security features such as fluorescent lifetime or pattern masking are advantageous if fraud is to be deterred. Herein, we present an electrohydrodynamically printed unicolour multi-fluorescent-lifetime security tag system composed of lifetime-tunable lead-halide perovskite nanocrystals that can be deciphered with both existing time-correlated single-photon counting fluorescence-lifetime imaging microscopy and a novel time-of-flight prototype. We find that unicolour or matching emission wavelength materials can be prepared through cation-engineering with the partial substitution of formamidinium for ethylenediammonium to generate “hollow” formamidinium lead bromide perovskite nanocrystals; these materials can be successfully printed into fluorescence-lifetime-encoded-quick-read tags that are protected from conventional readers. Furthermore, we also demonstrate that a portable, cost-effective time-of-flight fluorescence-lifetime imaging prototype can also decipher these codes. A single comprehensive approach combining these innovations may be eventually deployed to protect both producers and consumers.

Suggested Citation

  • Sergii Yakunin & Jana Chaaban & Bogdan M. Benin & Ihor Cherniukh & Caterina Bernasconi & Annelies Landuyt & Yevhen Shynkarenko & Sami Bolat & Christoph Hofer & Yaroslav E. Romanyuk & Stefano Cattaneo , 2021. "Radiative lifetime-encoded unicolour security tags using perovskite nanocrystals," Nature Communications, Nature, vol. 12(1), pages 1-8, December.
    • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-21214-3
    DOI: 10.1038/s41467-021-21214-3
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    Cited by:

    1. Yiqian Tang & Yiyu Cai & Kunpeng Dou & Jianqing Chang & Wei Li & Shanshan Wang & Mingzi Sun & Bolong Huang & Xiaofeng Liu & Jianrong Qiu & Lei Zhou & Mingmei Wu & Jun-Cheng Zhang, 2024. "Dynamic multicolor emissions of multimodal phosphors by Mn2+ trace doping in self-activated CaGa4O7," Nature Communications, Nature, vol. 15(1), pages 1-15, December.
    2. Kun Wang & Jianwei Shi & Wenxuan Lai & Qiang He & Jun Xu & Zhenyi Ni & Xinfeng Liu & Xiaodong Pi & Deren Yang, 2024. "All-silicon multidimensionally-encoded optical physical unclonable functions for integrated circuit anti-counterfeiting," Nature Communications, Nature, vol. 15(1), pages 1-11, December.
    3. Junfang Zhang & Rong Tan & Yuxin Liu & Matteo Albino & Weinan Zhang & Molly M. Stevens & Felix F. Loeffler, 2024. "Printed smart devices for anti-counterfeiting allowing precise identification with household equipment," Nature Communications, Nature, vol. 15(1), pages 1-9, December.
    4. Huai Chen & Mingyang Wei & Yantao He & Jehad Abed & Sam Teale & Edward H. Sargent & Zhenyu Yang, 2022. "Germanium silicon oxide achieves multi-coloured ultra-long phosphorescence and delayed fluorescence at high temperature," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    5. Pengwei Xiao & Zhoufan Zhang & Junjun Ge & Yalei Deng & Xufeng Chen & Jian-Rong Zhang & Zhengtao Deng & Yu Kambe & Dmitri V. Talapin & Yuanyuan Wang, 2023. "Surface passivation of intensely luminescent all-inorganic nanocrystals and their direct optical patterning," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    6. Tongtong Zhang & Lingzhi Wang & Jing Wang & Zhongqiang Wang & Madhav Gupta & Xuyun Guo & Ye Zhu & Yau Chuen Yiu & Tony K. C. Hui & Yan Zhou & Can Li & Dangyuan Lei & Kwai Hei Li & Xinqiang Wang & Qi W, 2023. "Multimodal dynamic and unclonable anti-counterfeiting using robust diamond microparticles on heterogeneous substrate," Nature Communications, Nature, vol. 14(1), pages 1-11, December.
    7. Jacob I. Deneff & Lauren E. S. Rohwer & Kimberly S. Butler & Bryan Kaehr & Dayton J. Vogel & Ting S. Luk & Raphael A. Reyes & Alvaro A. Cruz-Cabrera & James E. Martin & Dorina F. Sava Gallis, 2023. "Orthogonal luminescence lifetime encoding by intermetallic energy transfer in heterometallic rare-earth MOFs," Nature Communications, Nature, vol. 14(1), pages 1-14, December.

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