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Fluorometric Mercury (Ii) Detection Using Heteroatom-Doped Carbon and Graphene Quantum Dots Publisher



Chaghazardi M1 ; Kashanian S1, 2 ; Nazari M1 ; Omidfar K3, 4 ; Joseph Y5, 6 ; Rahimi P5, 6
Authors
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Authors Affiliations
  1. 1. Faculty of Chemistry, Razi University, Kermanshah, 67149, Iran
  2. 2. Department of Nanobiotechnology, Faculty of Innovative Science and Technology, Razi University, Kermanshah, 67149, Iran
  3. 3. Biosensor Research Center, Endocrinology and Metabolism Molecular—Cellular Sciences Institute, Tehran University of Medical Sciences, Tehran, 1416753955, Iran
  4. 4. Endocrinology and Metabolism Research Center, Endocrinology and Metabolism Clinical Sciences Institute, Tehran University of Medical Sciences, Tehran, 1416753955, Iran
  5. 5. Institute of Nanoscale and Biobased Materials, Faculty of Materials Science and Technology, Technische Universitat Bergakademie Freiberg, Freiberg, 09599, Germany
  6. 6. Freiberg Center for Water Research, Technische Universitat Bergakademie Freiberg, Freiberg, 09599, Germany

Source: Photonics Published:2024


Abstract

Mercury ion (Hg2+) is one of the most toxic pollutants that can exist throughout the environment and be diffused into water, soil, air, and eventually the food chain. Even a very low level of Hg2+ diffused in living organisms can hurt their DNA and cause the permanent damage of the central nervous system and a variety of consequential disorders. Hence, the development of a sensitive and specific method for the detection of Hg2+ at trace ranges is extremely important as well as challenging. Fluorometric detection assays based on graphene quantum dots (GQDs) and carbon quantum dots (CQDs) offer considerable potential for the determination and monitoring of heavy metals due to their fascinating properties. Although the quantum yield of GQDs and CQDs is sufficient for their use as fluorescent probes, doping with heteroatoms can significantly improve their optical properties and selectivity toward specific analytes. This review explores the primary advances of CQDs and GQDs in their great electronic, optical, and physical properties, their synthetic methods, and their use in Hg2+ fluorimetry detection. © 2024 by the authors.
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