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Enhanced Fluorescence and Environmental Stability of Red-Emissive Carbon Dots via Chemical Bonding with Cellulose Films

Yeqing Chen, Yeqing Chen, Gaoyang Xiong, Li‐Na Zhu, Jie Huang, Xueying Chen, Yan Chen, Yan Chen, Mingxuan Cao

2022ACS Omega30 citationsDOIOpen Access PDF

Abstract

The development of red emission carbon dots with bright solid-state fluorescence would significantly broaden their application in optoelectronic devices and sensors. Herein, a red-emissive carbon dot-based nanocomposite has been synthesized through chemical bonding with cellulose films. The red emission originating from the surface states of carbon dots was maintained in the cellulose films. Due to the stable chemical bonding, the photoluminescence intensity and emission wavelength remained unchanged for 12 months, and the quantum yield of the composite was enhanced over 4 times. It also showed outstanding stability in water or weak acid-base environments under pHs ranging from 2 to 11. Therefore, the mechanism of chemical bonding that eliminated the defects and preserved the efficient radiative process through surface states was proposed.

Topics & Concepts

PhotoluminescenceCelluloseMaterials scienceFluorescenceCarbon fibersQuantum yieldChemical stabilityChemical engineeringNanocompositeQuantum dotChemical bondPhotochemistryNanotechnologyComposite numberChemistryOptoelectronicsComposite materialOrganic chemistryOpticsEngineeringPhysicsCarbon and Quantum Dots ApplicationsNanocluster Synthesis and Applications
Enhanced Fluorescence and Environmental Stability of Red-Emissive Carbon Dots via Chemical Bonding with Cellulose Films | Litcius