Green hydrothermal approach for the synthesis of carbon quantum dots from waste tea bags for acrylamide detection in drinking water: A fluorescence assay validated by HPLC-PDA analysis.

The study focused on converting tea bag waste into strong fluorescence carbon quantum dots (TBW-CQDs) for the detection of acrylamide in drinking water, antimicrobial activity, and photocatalytic degradation. The TBW-CQDs exhibited blue luminescence and maximum absorbance at 287 nm under UV light and distinctive fluorescence emission and excitation wavelengths at 425 nm and 287 nm, respectively. TBW-CQDs revealed a particle size of 8.

Synthesis of hydrothermal-assisted papaya peel-derived carbon quantum dots impregnated carboxymethyl cellulose and pectin crosslinked nanohydrogel for shelf-life enhancement of strawberry.

This study focuses on utilizing papaya peel to produce carbon quantum dots (PP-CQDs) via a hydrothermal method and the PP-CQDs are subsequently embedded into carboxymethyl cellulose and pectin nanohydrogel to enhance the shelf-life of strawberries. The synthesis of PP-CQDs was found to be optimal under conditions of 12 h and 200 °C, resulting in a quantum yield of 39.15 % and an average particle size of 4.

Exploration of Calocybe indica mushroom phenolic acid-kidney bean protein complex: Functional properties, amino acid profiles, in-vitro digestibility, and application in vegan product development.

The study evaluates the interaction between Calocybe indica mushroom polyphenols (phenolic acid) and kidney bean protein (KBPM), aiming to enhance vegan food quality. The mushrooms exhibited a carbohydrate content of 3.65%, an antioxidant activity of 55.

Valorization of food industrial waste: Green synthesis of carbon quantum dots and novel applications.

Food analysis is a key element in monitoring food quality for risk assessment concerning public health. Instead of using chemically prepared carbon sources for food analysis, eco-friendly and green technology based CQDs are in great demand due to their least toxicity. Carbon quantum dots (CQDs) represent an innovative group of fluorescent nanomaterials, possessing characteristics like photoluminescence, minimal toxicity, high water solubility, and a strong affinity for biocompatibility.