Bio-sourced flexible supramolecular glasses for dynamic and full-color phosphorescence

Nie, Fei; Yan, Dongpeng

doi:10.1038/s41467-024-53963-2

Nat Commun

2024

DOI: 10.1038/s41467-024-53963-2

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Bio-sourced flexible supramolecular glasses for dynamic and full-color phosphorescence

Fei Nie,

Dongpeng Yan

Abstract: Glass, a diverse family of amorphous materials, has significantly advanced human society across various fields. The demand for flexible ultrathin glass, driven by modern optical displays and portable optoelectronics, presents challenges in energy consumption, fabrication complexity, and recycling. Here, we demonstrate flexibility and full-color luminescence in large-scale ultrathin glasses derived from readily available natural resources, specifically egg albumen (EA) and gelatin (GEL), via an evaporation-driv… Show more

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Cited by 5 publications

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Multilevel Stimulus‐Responsive Room Temperature Phosphorescence Achieved by Efficient Energy Transfer from Triplet Excitons to Mn²⁺ Pairs in 2D Hybrid Metal Halide

Peng,

Ma,

Zhao

et al. 2024

Adv Funct Materials

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Synthesis of color‐tunable ultralong room temperature phosphorescence (RTP) crystals with multilevel stimuli‐responsive properties is highly desirable due to their tremendous application prospects but has rarely been explored. Herein, a 2D organic–inorganic metal‐halide hybrid (ABA2CdCl4) has been originally designed and synthesized with efficient blue fluorescence and green RTP through Cd induced heavy atom effect. Due to the improved intermolecular interactions and enhanced light absorption, a high RTP efficiency up to 34% is achieved in ABA2CdCl4. With ABA2CdCl4 as a prototype, Mn2+‐doping strategy is successfully employed to construct multicomponent RTP material with wide‐tunable RTP property in response to multilevel external stimulus such as time, temperature and light. More importantly, Mn2+ pairs are formed in Mn2+‐doped ABA2CdCl4, which are observed in 2D metal‐halide hybrids for the first time. Due to the thermal assisted energy transfer from triplet excitons (organic unit) to Mn2+ pairs, and the thermally activated emission from Mn2+ pairs, tunable RTP colors between 270 and 333 K are easily realized, showing the highest sensitivity against temperature reported so far. By virtue of the above advantages, such materials are successfully applied in multilevel information storage and temperature sensors. The work promotes the development of multi‐stimuli responsive RTP systems based on hybrid metal halides.

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Multilevel Stimulus‐Responsive Room Temperature Phosphorescence Achieved by Efficient Energy Transfer from Triplet Excitons to Mn²⁺ Pairs in 2D Hybrid Metal Halide

Peng,

Ma,

Zhao

et al. 2024

Adv Funct Materials

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Emerging 0D Hybrid Metal Halide Luminescent Glasses

Li,

Wang,

et al. 2025

Advanced Materials

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Abstract0D hybrid metal halide (HMH) luminescent glasses have garnered significant attentions for its chemical diversity in optoelectronic applications and it also retains the skeleton connectivity and coordination mode of the crystalline counterparts while exhibiting various physics/chemistry characteristics distinct from the crystalline states. However, understanding of the glass‐forming ability and the specific structural origins underpinning the luminescent properties of 0D HMH glasses remains elusive. In this review, it is started from the solid‐liquid phase transition and thermodynamic analysis of 0D HMHs formed through melt‐quenching, and summarize the current compounds capable of stably forming glassy phases via chemical structural design. The structural characterization methods are further discussed and highlight the exceptional transparency, specific luminescent properties, and glass crystallization behaviors. Moreover, the application prospects demonstrated by these 0D HMH glasses have been presented accordingly in X‐ray detection and imaging, anti‐counterfeiting, and information encryption. Finally, perspective is offered into the future development of this emerging family of 0D HMH glasses and their applications.

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Old Bottles of New Wines: Dynamic Multimode Color-Tuning Long Afterglow and White Light Emission in Cost-Effective Metal-Organic Frameworks (MOFs)

Chen,

Wang,

et al. 2024

ACS Materials Lett.

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Bio-sourced flexible supramolecular glasses for dynamic and full-color phosphorescence

Cited by 5 publications

References 57 publications

Multilevel Stimulus‐Responsive Room Temperature Phosphorescence Achieved by Efficient Energy Transfer from Triplet Excitons to Mn²⁺ Pairs in 2D Hybrid Metal Halide

Multilevel Stimulus‐Responsive Room Temperature Phosphorescence Achieved by Efficient Energy Transfer from Triplet Excitons to Mn²⁺ Pairs in 2D Hybrid Metal Halide

Emerging 0D Hybrid Metal Halide Luminescent Glasses

Old Bottles of New Wines: Dynamic Multimode Color-Tuning Long Afterglow and White Light Emission in Cost-Effective Metal-Organic Frameworks (MOFs)

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Bio-sourced flexible supramolecular glasses for dynamic and full-color phosphorescence

Cited by 5 publications

References 57 publications

Multilevel Stimulus‐Responsive Room Temperature Phosphorescence Achieved by Efficient Energy Transfer from Triplet Excitons to Mn2+ Pairs in 2D Hybrid Metal Halide

Multilevel Stimulus‐Responsive Room Temperature Phosphorescence Achieved by Efficient Energy Transfer from Triplet Excitons to Mn2+ Pairs in 2D Hybrid Metal Halide

Emerging 0D Hybrid Metal Halide Luminescent Glasses

Old Bottles of New Wines: Dynamic Multimode Color-Tuning Long Afterglow and White Light Emission in Cost-Effective Metal-Organic Frameworks (MOFs)

Contact Info

Product

Resources

About

Multilevel Stimulus‐Responsive Room Temperature Phosphorescence Achieved by Efficient Energy Transfer from Triplet Excitons to Mn²⁺ Pairs in 2D Hybrid Metal Halide

Multilevel Stimulus‐Responsive Room Temperature Phosphorescence Achieved by Efficient Energy Transfer from Triplet Excitons to Mn²⁺ Pairs in 2D Hybrid Metal Halide