White-Light
Emission from Unmodified Graphene Oxide
Quantum Dots
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Abstract
We report herein
the synthesis and characterization of unmodified
graphene oxide quantum dots (GOQDs) with white-light-emitting properties,
upon photoexcitation at 340 nm. The Commission International de l’Éclairage
(CIE) 1931 chromaticity coordinates for GOQDs (<i>x</i> =
0.29, <i>y</i> = 0.34) suggest that highly pure white-light
emission was achieved. A detailed mechanistic study was carried out
utilizing UV–visible absorption, steady-state and time-resolved
fluorescence spectroscopy, and dynamic light scattering (DLS) techniques
to understand the origin of the white-light emission. The results
taken together suggest that GOQDs could self-assemble in solution
and thus transform the luminescence behavior. Furthermore, the results
indicate that the pH of the medium also plays a crucial role in assisting
the aggregation to generate the white-light emission. The concentration-dependent
DLS measurements support a cooperative mechanism for the aggregation
kinetics in the system. More importantly, the study suggests that
white-light emission can be generated from unmodified graphene oxide
quantum dots by tuning their nanoscopic aggregation properties