Litcius/Paper detail

Translation of Carbon Dot Biosensors into an Embedded Optical Setup for Spoilage and Adulteration Detection

Sandeep Choudhary, Bhavana Joshi, Abhijeet Joshi

2021ACS Food Science & Technology21 citationsDOI

Abstract

This research demonstrates a carbon quantum dot (CQD) based fluorescence technique for milk quality assessment and detection of urea adulteration using a commercialized optical fiber spectrometer (OFS) and a developed color sensor device (CSD). The change in pH from the normal pH of milk (∼6.7) indicates spoilage. The CQDs were synthesized using phthalic acid (carbon source) and triethylenediamine (TED) (passivant). The CQDs were found to be sensitive in the pH range 3–10 with a quantum yield of about 18.9%. The accuracy of spoilage detection using CQDs was expressed in the form of mean percent recovery and found to be 99.2% (R2 = 0.97) by the OFS and 99.59% (R2 = 0.98) by the CSD. The mean percent recovery obtained for urea adulteration in milk was 103.0% (R2 = 0.98) by the OFS and 97.9% (R2 = 0.97) by the CSD. The results indicate that CQDs have excellent potential for use as biosensors for spoilage and adulteration detection.

Topics & Concepts

Food spoilageBiosensorFluorescenceCarbon fibersCarbon quantum dotsChemistryMelamineUreaMaterials scienceQuantum dotNuclear chemistryChromatographyFood scienceNanotechnologyOrganic chemistryBacteriaBiologyOpticsComposite numberComposite materialGeneticsPhysicsCarbon and Quantum Dots ApplicationsElectrochemical sensors and biosensorsAdvanced Nanomaterials in Catalysis
Translation of Carbon Dot Biosensors into an Embedded Optical Setup for Spoilage and Adulteration Detection | Litcius