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Dynamic multicolor emissions of multimodal phosphors by Mn2+ trace doping in self-activated CaGa4O7

Author

Listed:
  • Yiqian Tang

    (Ocean University of China
    Ocean University of China)

  • Yiyu Cai

    (Ocean University of China
    Ocean University of China)

  • Kunpeng Dou

    (Ocean University of China
    Ocean University of China)

  • Jianqing Chang

    (Ocean University of China
    Ocean University of China)

  • Wei Li

    (Ocean University of China
    Ocean University of China)

  • Shanshan Wang

    (Ocean University of China
    Ocean University of China)

  • Mingzi Sun

    (The Hong Kong Polytechnic University)

  • Bolong Huang

    (The Hong Kong Polytechnic University)

  • Xiaofeng Liu

    (Zhejiang University)

  • Jianrong Qiu

    (Zhejiang University)

  • Lei Zhou

    (Sun Yat-sen University)

  • Mingmei Wu

    (Sun Yat-sen University)

  • Jun-Cheng Zhang

    (Ocean University of China
    Ocean University of China)

Abstract

The manipulation of excitation modes and resultant emission colors in luminescent materials holds pivotal importance for encrypting information in anti-counterfeiting applications. Despite considerable achievements in multimodal and multicolor luminescent materials, existing options generally suffer from static monocolor emission under fixed external stimulation, rendering them vulnerability to replication. Achieving dynamic multimodal luminescence within a single material presents a promising yet challenging solution. Here, we report the development of a phosphor exhibiting dynamic multicolor photoluminescence (PL) and photo-thermo-mechanically responsive multimodal emissions through the incorporation of trace Mn2+ ions into a self-activated CaGa4O7 host. The resulting phosphor offers adjustable emission-color changing rates, controllable via re-excitation intervals and photoexcitation powers. Additionally, it demonstrates temperature-induced color reversal and anti-thermal-quenched emission, alongside reproducible elastic mechanoluminescence (ML) characterized by high mechanical durability. Theoretical calculations elucidate electron transfer pathways dominated by intrinsic interstitial defects and vacancies for dynamic multicolor emission. Mn2+ dopants serve a dual role in stabilizing nearby defects and introducing additional defect levels, enabling flexible multi-responsive luminescence. This developed phosphor facilitates evolutionary color/pattern displays in both temporal and spatial dimensions using readily available tools, offering significant promise for dynamic anticounterfeiting displays and multimode sensing applications.

Suggested Citation

  • 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.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-47431-0
    DOI: 10.1038/s41467-024-47431-0
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    References listed on IDEAS

    as
    1. Xinquan Zhou & Lixin Ning & Jianwei Qiao & Yifei Zhao & Puxian Xiong & Zhiguo Xia, 2022. "Interplay of defect levels and rare earth emission centers in multimode luminescent phosphors," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    2. Xiaowang Liu & Yu Wang & Xiyan Li & Zhigao Yi & Renren Deng & Liangliang Liang & Xiaoji Xie & Daniel T. B. Loong & Shuyan Song & Dianyuan Fan & Angelo H. All & Hongjie Zhang & Ling Huang & Xiaogang Li, 2017. "Binary temporal upconversion codes of Mn2+-activated nanoparticles for multilevel anti-counterfeiting," Nature Communications, Nature, vol. 8(1), pages 1-7, December.
    3. 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.
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