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Fluorescent carbon quantum dots from Syzygium aromaticum as a selective sensor for Fe3+ and Cd2+ detection in aqueous solution

Said Ali Akbar, Muhammad Hasan, Muhammad Nazar, Ilham Zulfahmi, Edy Miswar, Muhammad Iqhrammullah, Zulkarnain Jalil

2025Case Studies in Chemical and Environmental Engineering15 citationsDOIOpen Access PDF

Abstract

Fluorescent carbon quantum dots (SA-CQDs) from Syzygium aromaticum were synthesized via carbonization-assisted ultrasonication, exhibiting an average size of 3.314 nm and strong blue fluorescence at 440 nm (excitation: 350 nm) with a quantum yield of 12.61 %. FTIR and UV–vis confirmed oxygen-containing functional groups, enhancing metal ion interactions. SA-CQDs showed selective fluorescence quenching for Fe 3+ (89.7 %) and Cd 2+ (84.8 %). Sensitivity analysis revealed linearity (R 2 = 0.988 for Fe 3+ , R 2 = 0.994 for Cd 2+ ) with detection limits of 0.515 μM and 0.403 μM, respectively. High recovery rates (95.10–100.23 %) in real water samples confirmed reliability for water quality monitoring. • SA-CQDs selectively detect Fe 3+ and Cd 2+ with strong fluorescence quenching. • High sensitivity with low detection limits of 0.515 μM (Fe 3+ ) and 0.403 μM (Cd 2+ ). • Stable fluorescence in real water samples with high recovery and low RSD values. • Cost-effective sensor for heavy metal detection in aqueous environments.

Topics & Concepts

Aqueous solutionQuantum dotFluorescenceSyzygiumCarbon quantum dotsCarbon fibersChemistryNanotechnologyMaterials scienceBiologyOrganic chemistryPhysicsBotanyComposite materialOpticsComposite numberCarbon and Quantum Dots ApplicationsAdvanced biosensing and bioanalysis techniquesElectrochemical sensors and biosensors