Abstract
We presented a green, simple and economical method to synthesize carbon nanodots (C-dots) from millets using hydrothermal synthesis route. The obtained C-dots have average diameter ranging from 6 to 8 nm. Optical measurements showed the formation of hydroxyl, carbonyl/carboxyl, amino functional groups on the particle surfaces, resulting in their high hydrophilicity and bioconjugation. After treatment with C-dots, human cervical and lung cancer cells became bright and exhibited multicolor fluorescence under different excitation wavelength. The achievement demonstrated potential applications of fluorescent C-dots in the field of biomedical application, especially in diagnostic disease techniques.
Highlights
Simple and economical method to synthesize carbon nanodots (C-dots) from millets using hydrothermal synthesis route
Photoluminescence, Natural biomass, Millets, Hydrothermal method, Biomedical application, human cervical cancer cells, lung cancer cells
Summary
This article is published with open access by BioMedPress (BMP).
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