Realizing Multicolor and Stepwise Photochromism for On-Demand Information Encryption

Hu, Wei; Qiu, Zhongxian; Bao, Yunwen; Du, Jiaren; Zhang, Jilin; Smet, Philippe F.; Wen, Xiao-Dong; Lian, Shixun

doi:10.1021/acsenergylett.4c00383

ACS Energy Lett.

2024

DOI: 10.1021/acsenergylett.4c00383

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Realizing Multicolor and Stepwise Photochromism for On-Demand Information Encryption

Wei Hu,

Zhongxian Qiu,

Yunwen Bao

et al.

Abstract: This work achieves dual-mode light-and heat-responsive stepby-step coloration via trap engineering in the Ba 5 (PO 4 ) 3 Cl:Eu 2+ ,Ce 3+ ,F − (BPCF) phosphor. A three-step calcination (BPCF-III) strategy promotes the redistribution of multitraps and balances three color-centers to facilitate photoinduced electron transfer processes. The BPCF-III shows controllable color tunability due to the distinct energy stimulation for each color-center with different trap depths. The powder color changes from white to red… Show more

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Cited by 4 publications

References 48 publications

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Matrix‐Emission‐Assisted Photochromism Enables Dual‐Field Color‐Changing Modulations

Zhu,

Zhang,

Wang

et al. 2024

Advanced Physics Research

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Trap‐related inorganic photochromic materials coupled with regulated luminescence have attracted extensive interest due to their great potential in optoelectronic devices, optical memory, and multiple anti‐counterfeiting applications. Combining photochromism with luminescence modulations enables the light‐driven reversible manipulation of optical information in both dark and bright fields. However, photochromism induced luminescence modulation is still restricted to monochromatic visualization with only emission intensity variations. To this end, the limitation of the common single‐wavelength modulation is overcome by integrating the matrix (Sr2YGaO5) and dopant (Sm3+) emissions mutually together to achieve wavelength variations. Color‐changing emission is identified with a large Commission Internationale de L'Eclairage chromatic coordinate difference. The compatible coexistence of matrix/rare‐earth emission centers together with abundant photo‐active traps contributes to the superior optical integration and matrix‐emission‐assisted photochromism enables a distinct color variation in dual fields. This work provides a good example of designing one single material with color changeable characteristics in both bright and dark fields.

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Matrix‐Emission‐Assisted Photochromism Enables Dual‐Field Color‐Changing Modulations

Zhu,

Zhang,

Wang

et al. 2024

Advanced Physics Research

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Singlet-triplet emissive tuning enables dual-mode stimuli-responsive luminescence in 0D Cs2ZrCl6:Sb3+/8-hydroxyquinoline composites for multilevel optical encryption

Zha,

Duan,

Meng

et al. 2025

Chemical Engineering Journal

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Manipulation of Multimodal and Multicolor Luminescence via Interplay of Traps and Rare Earth Emission Centers in Calcium Tungstate

Du,

Wang,

et al. 2024

Inorg. Chem.

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Multimodal luminescence involves color-tunable and wavelength manageable photon emissions upon variable luminescence pathways in response to different external stimuli, which provides clear visualization and high-level confidentiality for information encryption technologies. Integrating multimodal luminescence into a single matrix is regarded as a feasible strategy but remains a big challenge. In this work, multimodal (photoluminescence, persistent luminescence, upconversion luminescence, and thermally stimulated luminescence) and multicolor luminescence (green, yellow, orange, pink to red) is achieved in CaWO 4 :Yb 3+ ,Er 3+ ,Eu 3+ phosphor by employing an interplay of traps and rare earth emission centers. Bright emission in a wide color gamut is achieved dynamically in response to thermal disturbance and light illumination, which further allows for on-demand emission manipulation in space and time dimensions. The compatible coexistence of multiple rare earth emissive centers together with abundant photoactive traps contributes to the excellent integration of multimodal photon emissions in calcium tungstate. This work provides a good example of integrating multimodal luminescence into one single matrix and indicates potential in advanced high-level information encryption applications.

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Realizing Multicolor and Stepwise Photochromism for On-Demand Information Encryption

Cited by 4 publications

References 48 publications

Matrix‐Emission‐Assisted Photochromism Enables Dual‐Field Color‐Changing Modulations

Matrix‐Emission‐Assisted Photochromism Enables Dual‐Field Color‐Changing Modulations

Singlet-triplet emissive tuning enables dual-mode stimuli-responsive luminescence in 0D Cs2ZrCl6:Sb3+/8-hydroxyquinoline composites for multilevel optical encryption

Manipulation of Multimodal and Multicolor Luminescence via Interplay of Traps and Rare Earth Emission Centers in Calcium Tungstate

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