Enhanced functionality of green synthesized sulfur nanoparticles using kiwifruit (Actinidia deliciosa) peel polyphenols as capping agents

“…Since optical phenomena, particularly photoluminescence, are characteristic of quantum dots, absorption and emission spectra were recorded to confirm the synthesis of SQDs. The UV–visible absorption spectrum of the SQDs (Figure S1a, Supporting Information) exhibits two distinct absorption peaks at 300 nm and 361 nm corresponding to n → σ* transition , and n → π* transition, respectively, which are characteristic absorptions of elemental sulfur present in the SQD. As reported earlier, the highest emission intensity for SQDs is achieved when excited at 360 nm .…”

“…Since then, several synthesis methods were reported that either used sublimed elemental sulfur or sulfur-containing compounds like sodium sulfide as a precursor material. , Among them, the hydrothermal method is of great interest due to its facile synthesis and cost-effectiveness . In addition, sublimated elemental sulfur, which can be obtained inexpensively as a byproduct of the desulfurization process of petroleum refining, can be utilized in this method. , Several studies have reported the utilization of SQDs for biomedical research involving signal transduction and cell entry mechanism, live-cell imaging, , etc. In addition, these quantum dots have also been used for the sensing and detection of toxic compounds.…”

Sulfur Quantum Dots as Fillers in Gelatin/Agar-Based Functional Food Packaging Films

“…Since optical phenomena, particularly photoluminescence, are characteristic of quantum dots, absorption and emission spectra were recorded to confirm the synthesis of SQDs. The UV–visible absorption spectrum of the SQDs (Figure S1a, Supporting Information) exhibits two distinct absorption peaks at 300 nm and 361 nm corresponding to n → σ* transition , and n → π* transition, respectively, which are characteristic absorptions of elemental sulfur present in the SQD. As reported earlier, the highest emission intensity for SQDs is achieved when excited at 360 nm .…”

“…Since then, several synthesis methods were reported that either used sublimed elemental sulfur or sulfur-containing compounds like sodium sulfide as a precursor material. , Among them, the hydrothermal method is of great interest due to its facile synthesis and cost-effectiveness . In addition, sublimated elemental sulfur, which can be obtained inexpensively as a byproduct of the desulfurization process of petroleum refining, can be utilized in this method. , Several studies have reported the utilization of SQDs for biomedical research involving signal transduction and cell entry mechanism, live-cell imaging, , etc. In addition, these quantum dots have also been used for the sensing and detection of toxic compounds.…”

Sulfur Quantum Dots as Fillers in Gelatin/Agar-Based Functional Food Packaging Films

“…In the last few years, kiwi peels extract has been successfully used to fabricate nanoparticles using a cost effective and eco-friendly green method of synthesis. Zinc oxide (ZnO), titanium dioxide (TiO 2 ), and tin oxide (SnO 2 ) nanoparticles (NPs) were prepared by exploiting the polyphenolic component of kiwi peels used as reducing and capping agent for NPs preparation and stabilization [ 9 , 10 , 11 , 12 ].…”

Valorization of Kiwi Peels: Fractionation, Bioactives Analyses and Hypotheses on Complete Peels Recycle

“…More potent antimicrobial activity of SNPs against L. monocytogenes was reported earlier. 24,59 On the other hand, E. coli is a mesophilic bacterium and generally grows at higher temperatures (>25 °C). The Carr/SNP films, hence, were not much effective against this bacterial strain.…”

Carrageenan-Based Antimicrobial Films Integrated with Sulfur-Coated Iron Oxide Nanoparticles (Fe₃O₄@SNP)