4.7 Article

Carbon Dots with Tailored Surface Wettability as Pickering Emulsifiers

Journal

ACS APPLIED NANO MATERIALS
Volume -, Issue -, Pages -

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acsanm.2c01277

Keywords

carbon dots; Pickering emulsion; surfactant; surface modification; Pickering emulsion polymerization

Funding

  1. National Research Foundation of Korea (NRF) - Korean government (MSIT) [NRF-2020R1C1C1010523]

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Carbon dots (CDs) with tailored surface wettability were investigated as Pickering emulsifiers. The surface-modified CDs showed strong adsorption at the oil-water interface, exhibiting high emulsification behavior. The density of hydrophobic hexyl isocyanates on the CDs affected the emulsification behavior. The application of the surface-modified CDs as emulsifiers in Pickering emulsion polymerization was demonstrated, and the resulting polystyrene particles showed adsorption performance for heavy metal ions and organic dyes, indicating potential for wastewater treatment.
Carbon dots (CDs) have attracted increasing attention in stabilizing Pickering emulsions due to their fascinating physicochemical properties. However, their practical use as Pickering emulsifiers has been limited due to the strong hydrophilic nature of the pristine CDs. Herein, the surface wettability of the CDs is simply tailored with hydrophobic hexyl isocyanates to produce surface-modified CDs (CD-Hs), and these are investigated as Pickering emulsifiers. Compared with the pristine CDs, CD-Hs showed strong adsorption at the oil-water interface, thereby exhibiting a high emulsification behavior. Furthermore, the effect of varying the density of hydrophobic hexyl isocyanates upon the emulsification behavior of the CD-Hs is investigated. Additionally, the practical applicability of the synthesized CD-Hs as the emulsifier is demonstrated in the Pickering emulsion polymerization process. Styrene-in-water emulsions stabilized by the CD-Hs are successfully polymerized to produce nanosized polystyrene (PS) particles with enriched fluorescent emission. Furthermore, the CD-stabilized PS particles exhibit adsorption performance toward heavy metal ions and organic dyes, demonstrating great potential for wastewater treatment. This study provides a promising approach for the design and fabrication of CD-based emulsion systems and hybrid materials.

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