TiO nanofibres decorated with green-synthesized P@CQDs for the efficient photocatalytic degradation of organic dyes and pharmaceutical drugs.

Organic pollutants such as dyes and pharmaceutical drugs have become an environmental menace, particularly in water bodies owing to their unregulated discharge. It is thus required to develop an economically viable and environment-friendly approach for their degradation in water bodies. In this study, for the first time, we report green route-synthesized plasmonic nanostructures (P-CQDs (where M: Au and Ag)) decorated onto TiO nanofibers for the treatment of toxic dye- and pharmaceutical drug-based wastewater. P-CQDs are efficaciously synthesized using carbon quantum dots (CQDs) as the sole reducing and capping agent, wherein CQDs are derived a green synthesis approach from waste. The characteristic electron-donating property of CQDs played a key role in the reduction of Au to Au and Ag to Ag under visible light irradiation to obtain P-CQDs and P-CQDs, respectively. Thus, the obtained CQDs, P-CQDs, and P-CQDs are loaded onto TiO nanofibers to obtain a P-CQD/TiO nanocomposite (NC), and are further probed transmission electron microscopy, scanning electron microscopy and UV-visible spectrophotometry. The degradation of organic pollutants and pharmaceutical drugs using methylene blue and erythromycin as model pollutants is mapped with UV-vis and NMR spectroscopy. The results demonstrate the complete MB dye degradation in 20 minutes with 1 mg mL of P-CQD/TiO NC, which otherwise is 30 minutes for P@CQD/TiO dose under visible light irradiation. Similarly, the pharmaceutical drug was found to degrade in 150 minutes with P-CQD/TiO photocatalysts. These findings reveal the enhanced photocatalytic performance of the green-synthesized Au decorated with TiO nanofibers and are attributed to the boosted SPR effect and aqueous-phase stability of Au nanostructures. This study opens a new domain of utilizing waste-derived and green-synthesized plasmonic nanostructures for the degradation of toxic/hazardous dyes and pharmaceutical pollutants in water.