Carbon Dots‐Inked Paper with Single/Two‐Photon Excited Dual‐Mode Thermochromic Afterglow for Advanced Dynamic Information Encryption

Advanced Materials, Journal Year: 2024, Volume and Issue: 36(31)

Published: May 13, 2024

Achieving thermochromic afterglow (TCAG) in a single material for advanced information encryption remains significant challenge. Herein, TCAG carbon dots (CDs)-inked paper (CDs@Paper) is achieved by tuning the temperature-dependent dual-mode of room temperature phosphorescence (RTP) and thermally activated delayed fluorescence (TADF). The CDs are synthesized through thermal treatment levofloxacin melting boric acid with postpurification via dialysis. CDs@Paper exhibit both excitation-dependent color properties. exhibits dynamic changes from blue at high temperatures to yellow low adjusting proportion TADF phosphorescence. Notably, two-photon CDs-based materials time-dependent colors first time. Moreover, leveraging opposite emission responses temperature, demonstrate temperature-sensing capabilities across wide range. Furthermore, CDs@Paper-based 3D code containing successfully developed encryption.

Language: Английский

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Tailored Fabrication of Full‐Color Ultrastable Room‐Temperature Phosphorescence Carbon Dots Composites with Unexpected Thermally Activated Delayed Fluorescence

Advanced Materials, Journal Year: 2024, Volume and Issue: 36(27)

Published: April 23, 2024

Abstract The development of single‐system materials that exhibit both multicolor room‐temperature phosphorescence (RTP) and thermally activated delayed fluorescence (TADF) with tunable after glow colors channels is challenging. In this study, four metal‐free carbon dots (CDs) are developed through structural tailoring, panchromatic high‐brightness RTP achieved via strong chemical encapsulation in urea. maximum lifetime quantum yield reaches 2141 ms 56.55%, respectively. Moreover, CDs‐IV@urea, prepared coreshell interaction engineering, exhibits a dual afterglow red green TADF. degree conjugation functional groups precursors affects the binding interactions nitrogen cladding on CDs, which turn stabilizes triplet energy levels gap between S 1 T (Δ E ST ) to induce RTP. enhanced wrapping lowers Δ , promoting reverse intersystem crossing, leads This fully state, thus stabilizing material water, even extreme environments such as acids oxidants. These tested multicolor, time, temperature multiencryption well vivo bioimaging. Hence, these have promising practical applications information security biomedical diagnosis treatment.

Language: Английский

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Fused‐Ring Pyrrole‐Based Near‐Infrared Emissive Organic RTP Material for Persistent Afterglow Bioimaging

Angewandte Chemie International Edition, Journal Year: 2023, Volume and Issue: 63(5)

Published: Dec. 12, 2023

Organic near-infrared room temperature phosphorescence (RTP) materials offer remarkable advantages in bioimaging due to their characteristic time scales and background noise elimination. However, developing RTP for deep tissue imaging still faces challenges since the small band gap may increase non-radiative decay, resulting weak emission short lifetime. In this study, fused-ring pyrrole-based structures were employed as guest molecules construction of long wavelength emissive materials. Compared decrease singlet energy level, triplet level showed a more effectively with conjugation substituent groups. Moreover, sufficient fused ring molecule suppresses decay excitons. Therefore, material (764 nm) was achieved penetration bioimaging. Tumor cell membrane is used coat nanoparticles (NPs) avoid decreasing performance compared traditional coating by amphiphilic surfactants. NPs tumor-targeting properties show favorable phosphorescent properties, superior stability, excellent biocompatibility. These are applied time-resolved luminescence eliminate interference penetration. This study provides practical solution prepare long-wavelength long-lifetime organic applications

Language: Английский

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Encapsulation engineering of porous crystalline frameworks for delayed luminescence and circularly polarized luminescence

Chemical Society Reviews, Journal Year: 2024, Volume and Issue: 53(13), P. 6694 - 6734

Published: Jan. 1, 2024

Delayed luminescence (DF), including phosphorescence and thermally activated delayed fluorescence (TADF), circularly polarized (CPL) exhibit common broad application prospects in optoelectronic displays, biological imaging, encryption. Thus, the combination of is attracting increasing attention. The encapsulation guest emitters various host matrices to form host-guest systems has been demonstrated be an appealing strategy further enhance and/or modulate their luminescence. Compared with conventional liquid crystals, polymers, supramolecular matrices, porous crystalline frameworks (PCFs) metal-organic (MOFs), covalent-organic (COFs), zeolites hydrogen-bonded organic (HOFs) can not only overcome shortcomings such as flexibility disorder but also achieve ordered guests long-term stability chiral structures, providing new promising platforms for development DF CPL. In this review, we provide a comprehensive critical summary recent progress photochemistry

Language: Английский

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Long-lived dynamic room temperature phosphorescent carbon dots for advanced sensing and bioimaging applications

Coordination Chemistry Reviews, Journal Year: 2024, Volume and Issue: 516, P. 215987 - 215987

Published: May 31, 2024

Language: Английский

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Biomass-derived carbon dots with pharmacological activity for biomedicine: Recent advances and future perspectives

Science Bulletin, Journal Year: 2024, Volume and Issue: 69(19), P. 3127 - 3149

Published: Aug. 16, 2024

Language: Английский

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Pushing Trap‐Controlled Persistent Luminescence Materials toward Multi‐Responsive Smart Platforms: Recent Advances, Mechanism, and Frontier Applications

Advanced Materials, Journal Year: 2024, Volume and Issue: 36(37)

Published: July 14, 2024

Abstract Smart stimuli‐responsive persistent luminescence materials, combining the various advantages and frontier applications prospects, have gained booming progress in recent years. The trap‐controlled property energy storage capability to respond external multi‐stimulations through diverse pathways make them attractive emerging multi‐responsive smart platforms. This review aims at advances materials for advanced multi‐stimuli‐responsive design principles, mechanisms, representative stimulations, i.e., thermo‐, photo‐, mechano‐, X‐rays responsiveness, are comprehensively summarized. Various hybrid systems containing highlighted. Specifically, temperature dependent trapping de‐trapping performance is discussed, from extreme‐low ultra‐high conditions. Emerging future perspectives briefly presented. It hoped that this would provide new insights guidelines rational manipulation of

Language: Английский

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Tuning Circularly Polarized Afterglow Color via Modulation of Energy and Chirality Transfer in Co‐Doped Films

Advanced Functional Materials, Journal Year: 2024, Volume and Issue: unknown

Published: July 21, 2024

Abstract Circularly polarized luminescence (CPL) materials offer exciting potential due to their unique light properties. However, controlling the color of afterglow emission, a key feature for many applications remains challenge. Here, co‐doping strategy is presented precise control multicolor CPL in films. This approach utilizes chiral naphthylphosphoric acid derivatives as energy and chirality transfer donors, commonly used fluorescent dye rhodamine B (RB) PVA are selected acceptor polymeric matrix, respectively. Remarkably, co‐doped films exhibit ultra‐long green circular polarization phosphorescence lasting several seconds with high efficiency (14.23%), lifetime (1025.5 ms), dissymmetry factor (8.44 × 10 −3 ). Crucially, by adjusting content, it can precisely tune phosphorescence‐to‐fluorescence ratio achieve afterglow. stems from combination Förster resonance transfer, color‐mixing effects. Furthermore, this significantly improves asymmetry an order magnitude (5.17 −2 It anticipated that straightforward regulating will provide invaluable insights future design highly efficient innovative materials.

Language: Английский

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Synchronously Improved Multiple Afterglow and Phosphorescence Efficiencies in 0D Hybrid Zinc Halides With Ultrahigh Anti‐Water Stabilities

Angewandte Chemie International Edition, Journal Year: 2024, Volume and Issue: 63(51)

Published: Aug. 17, 2024

Abstract Zero‐dimensional (0D) hybrid metal halides have been emerged as room‐temperature phosphorescence (RTP) materials, but synchronous optimization of multiple performance in one structural platform remains less resolved, and stable RTP activity aqueous medium is also unrealized due to serious instability toward water oxygen. Herein, we demonstrated a photophysical tuning strategy new 0D zinc halide family (BTPP) 2 ZnX 4 (BTPP=benzyltriphenylphosphonium, X=Cl Br). Infrequently, the delicate combination organic inorganic species enables this display ultralong green afterglow efficient self‐trapped exciton (STE) associated cyan phosphorescence. Compared with inert luminescence [BTPP] + cation, incorporation anionic [ZnX ] 2− effectively enhance spin‐orbit coupling effect, which significantly boosts photoluminescence quantum yield (PLQY) up 30.66 % 54.62 for phosphorescence, respectively. Synchronously, corresponding lifetime extend 143.94 ms 0.308 μ s surpassing indiscernible [BTPP]X salt. More importantly, presents robust emission nearly unattenuated PLQY harsh condition (acid basic solution) over half year. The highly integrated STE well ultrahigh state realize anti‐counterfeiting applications wide chemical environments.

Language: Английский

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The luminescence mechanism of two pure organic room temperature phosphorescent isomers, mechanical force detection, 3D modeling, and dynamic data encryption

Chemical Engineering Journal, Journal Year: 2025, Volume and Issue: 505, P. 159245 - 159245

Published: Jan. 5, 2025

Language: Английский

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