Journal of Advanced Ceramics (Apr 2024)

A time-dependent luminescent phosphor of Na2Ba2Si2O7:Eu for multi-level encryption and dynamic information display

  • Jie Shao,
  • Xiyang Li,
  • Meng Liu,
  • Haiqin Sun,
  • Qiwei Zhang,
  • Dengfeng Peng,
  • Fuchi Liu

DOI
https://doi.org/10.26599/JAC.2024.9220865
Journal volume & issue
Vol. 13, no. 4
pp. 429 – 436

Abstract

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Photo-stimuli responsive materials show great potential in the fields of information encryption and storage due to their distinctive spatial or temporal color changes. However, the conventional single or multi-color static outputs by light stimulus difficulty meet practical requirements for high-security optical storage technologies. Here, a novel dynamic irradiation-responsive phosphor of Na2Ba2Si2O7:Eu is demonstrated, exhibiting high storage stability and convenient readout behaviors. The inherent Eu2+ luminescence can be dynamically tuned, instantly read out, and conveniently erased by controlling irradiation duration of a portable diode laser (365 nm). The modulation mechanism is unraveled by optically induced oxidation reactions of Eu2+→Eu3+ and defects as killer centers. The excellent luminescence modulation degree (ΔRt = 89.5%) and the accompanying larger color contrast enable the creation of invisible optical codes with multi-level encryption in bright or dark field. These results indicate potential applications of Na2Ba2Si2O7-based materials in information encryption and invisible optical storage, and are expected to expand more investigations on optically induced PL modulation behaviors based on mixed valences and defects.

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