This
work presents the facile synthesis of heteroatom-doped fluorescent
carbon quantum dots (C-dots), which could serve as an antioxidant.
Herein, nitrogen, phosphorous, and sulfur codoped carbon dots (NPSC-dots)
have been synthesized by a single-step hydrothermal strategy. Owing
to the radical scavenging activity of the NPSC-dots, they were tested
against several methods as well as in practical applications. The
antioxidant ability of the NPSC-dots was efficiently utilized on plastic
films by coating with these NPSC-dots. For the very first time, NPSC-dots
were immobilized onto nonpolar plastic films (polypropylene) via photochemical
covalent grafting to extend the shelf life of food items or storage
without affecting the quality of plastic films. The NPSC-dot-coated
PP film with negligible deterioration of transparency was extensively
studied using scanning electron microscopy (SEM), atomic force microscopy
(AFM), Fourier transform infrared (FTIR) analysis, X-ray photoelectron
spectroscopy (XPS), contact angle measurement, and thermogravimetric
analysis (TGA). The fluorescent character, antioxidant ability, and
durability under different solvent systems of the coated film were
examined. Also, the coated films were extensively and rigorously evaluated
against simulated drastic environmental conditions to ensure the durability
and antifogging application.