Polymerizing dopamine onto Q-graphene scaffolds towards the fluorescent nanocomposites with high aqueous stability and enhanced fluorescence for the fluorescence analysis and imaging of copper ions

Abstract

Dopamine (DA) was polymerized onto the scaffolds of Q-graphene (QG) nanomaterials by the one-pot H2O2 oxidation under the microwave radiations. The so yielded fluorescent QG@PDA nanocomposites could present the high aqueous stability and photostability. Unexpectedly, they could display the enhanced fluorescence and photoluminescence, which are about 1.5-time larger than those of the fluorescent PDA nanoparticles. More importantly, the fluorescence and photoluminescence of QG@PDA nanocomposites could be specifically quenched by Cu2+ ions, which could be efficiently restored by using the Cu2+-chelating ligand (i.e., EDTA). The developed fluorimetry was applied to detect Cu2+ ions in wastewater with the detection limit down to about 10nM. The feasibility of the quantitative observations by the fluorescence imaging for Cu2+ ions could also be expected. This QG@PDA-based fluorimetry for Cu2+ ions is rapid, sensitive, selective, and field-applicable, promising the potential applications in the environmental and industrial fields.