White-Light-Emitting Melamine-Formaldehyde Microspheres through Polymer-Mediated Aggregation and Encapsulation of Graphene Quantum Dots.

Youshen Wu,Qi Wang,Guijiang Zhou,Aizhao Pan,Ling He,Hui Zhang,Yanfeng Zhang

doi:10.1002/advs.201801432

Youshen Wu, Qi Wang + Show 5 more

Open Access

https://doi.org/10.1002/advs.201801432

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Abstract

Graphene quantum dot (GQD) encapsulated melamine‐formaldehyde (MF) polymer microspheres with uniform particle size and tunable high‐quality white‐light emissions are prepared via a polymer‐mediated GQD assembly and encapsulation strategy. In solution, GQDs are first aggregated with MF prepolymer through electrostatic interaction and further encapsulated inside the microspheres formed by polymerization of MF prepolymer under acid catalysis and heating. During this process, the aggregated GQDs are fixed in the MF polymer matrix with their emission extended from blue to full visible range, presenting bright white luminescence under ultraviolet excitation. The prepared white‐light‐emitting GQD‐MF microspheres exhibit uniform morphology with an average particle size of 2.0 ± 0.08 µm and their luminescence properties are effectively regulated by the doping concentration of GQDs in the MF polymer matrix. A series of white‐light‐emitting GQD‐MF microspheres with quantum yields from 0.83 to 0.43, Commission Internationale de L'Eclairage coordinates from (0.28, 0.28) to (0.33, 0.32), and color rendering index from 0.75 to 0.88 are obtained with excellent photostability and thermal stability. By dispersing the GQD‐MF microspheres in cross‐linked polydimethylsiloxane matrix, flexible film with dual functions of high‐quality white‐light‐emitting and light diffusion is obtained and successfully applied for white light‐emitting diode fabrication.

Highlights

White-light-emitting materials have important applications in the fields of lightpolymer microspheres with uniform particle size and tunable high-quality emitting diode (LED) lighting, sensing, white-light emissions are prepared via a polymer-mediated graphene quantum dots (GQDs) assembly and encapsulation strategy
GQDs with up to 55% quantum yield (QY) and good dispersibility were synthesized from hydrothermal reaction of citric acid and ethylenediamine using polyvinyl alcohol (PVA) as a dispersant
The normalized absorption and excitation spectra of the re-extracted GQDs kept unchanged, either. These results indicated that the white-light-emission of GQDs inside GQD-MF microspheres should not be attributed to the change of their chemical structure

Summary

Through controlled GQD aggregation in aqueous solution

The QY of GQD-MF prepared with a GQD doping concentration of 2.0 wt% increased to 151% compared to that of a 0.1 wt% GQD solution (Table S1, Supporting Information) This indicated that the encapsulation of the polymer matrix reduced the various quenching effects in the GQDs, which is very valuable for the preparation of highly efficient stable solid-state luminescent materials using GQDs. As GQDs were mixed with the MF prepolymer, aggregation occurred, the emission of individual GQDs at 450 nm decreased, and new emission bands appeared at 500–700 nm. The prepared GQD-MF microspheres had a high-quality white-light emission and excellent stability They could be dispersed in various solvents and polymers, demonstrating their significant potential for the fabrication of luminescent materials and devices

Experimental Section

Findings

Conflict of Interest