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Solid-State Phosphors from Coal-Derived Carbon Quantum Dots

Anusuya Boruah, Sarmistha Bora, Ashutosh Thakur, Hemant Sankar Dutta, Binoy K. Saikia

2023ACS Omega17 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide With unique optical and chemical properties, carbon quantum dots (CQDs) find tremendous applications in chemistry, biology, and materials science to medicine. To expand the applicability of coal-derived CQDs from the liquid to solid state, we herein report the sustainable synthesis of solid phosphors from coal-derived CQDs using poly(vinyl alcohol) (PVA) and silica (SiO 2 ) as an organic and inorganic matrix. Two coal-derived CQDs were obtained using an eco-friendly ultrasonic-assisted wet oxidation method. The structural and chemical properties of the CQDs were extensively investigated and compared with commercial CQDs. The coal-derived CQDs exhibited blue fluorescence with 8.9 and 14.9% quantum yields. The CQDs were found to be self-co-doped with nitrogen and sulfur heteroatoms through surface and edge functional groups. Solid-state fluorescence of PVA/CQD composite films confirmed that the CQDs retained their excellent blue emission in a dry solid matrix. A facile one-pot sol–gel method was employed to fabricate SiO 2 /CQD phosphors with the unique fluorescence emission. Due to their special structural features, coal-derived CQDs favored the heterogeneous nucleation and rapid formation of SiO 2 /CQD phosphors. Further, coal-derived CQDs caused high-intensity white light emission with CIE coordinates of (0.312, 0.339) by endowing a suitable band gap structure in a SiO 2 /CQD solid phosphor for potential optical applications.

Topics & Concepts

PhosphorNucleationMaterials scienceFluorescenceCarbon fibersCoalHeteroatomChemical engineeringQuantum dotVinyl alcoholNanotechnologyChemistryOptoelectronicsComposite numberOrganic chemistryComposite materialPolymerOpticsRing (chemistry)PhysicsEngineeringCarbon and Quantum Dots ApplicationsLuminescence and Fluorescent MaterialsLuminescence Properties of Advanced Materials
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