Photochemical synthesis, characterization, and electrochemical sensing properties of CD-AuNP nanohybrids

Among the existing nanosystems used in electrochemical sensing, gold nanoparticles (AuNPs) have attracted considerable attention owing to their intriguing chemical and physical properties such as good electrical conductivity, high electrocatalytic activity, and high surface-to-volume ratio. However,...

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Published inNanoscale Vol. 16; no. 7; pp. 3571 - 3582
Main Authors Nocito, Giuseppe, Zribi, Rayhane, Chelly, Meryam, Pulvirenti, Luca, Nicotra, Giuseppe, Bongiorno, Corrado, Arrigo, Antonino, Fazio, Barbara, Neri, Giovanni, Nastasi, Francesco, Conoci, Sabrina
Format Journal Article
LanguageEnglish
Published England Royal Society of Chemistry 15.02.2024
Subjects
Aqueous solutions
Electrical resistivity
Electrochemical analysis
Gold
Hydroquinone
Nanomaterials
Physical properties
Room temperature
Solid wastes
Synthesis
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Summary:Among the existing nanosystems used in electrochemical sensing, gold nanoparticles (AuNPs) have attracted considerable attention owing to their intriguing chemical and physical properties such as good electrical conductivity, high electrocatalytic activity, and high surface-to-volume ratio. However, despite these useful characteristics, there are some issues due to their instability in solution that can give rise to aggregation phenomena and the use of hazardous chemicals in the most common synthetic procedures. With an aim to find a solution to these issues, recently, we prepared and characterized carbon dots (CDs), from olive solid wastes, and employed them as reducing and capping agents in photo-activated AuNP synthesis, thus creating CD-Au nanohybrids. These nanomaterials appear extremely stable in aqueous solutions at room temperature, are contemporary, and have been obtained using CDs, which are exclusively based on non-toxic elements, with an additional advantage of being generated from an otherwise waste material. In this paper, the synthesis and characterization of CD-Au nanohybrids are described, and the electrochemical experiments for hydroquinone detection are discussed. The results indicate that CD-Au acts as an efficient material for sensing hydroquinone, matching a wide range of interests in science from industrial processes to environmental pollution. Carbon dots (CDs) have been prepared from olive solid wastes and employed as capping agents in photo-activated gold-nanoparticles synthesis, thus creating CD-Au nanohybrids which act as an efficient material for electrochemical sensing hydroquinone.
Bibliography:https://doi.org/10.1039/d3nr05897b
Antonino Arrigo completed his Ph.D. in Chemistry at the University of Messina (Sicily) in collaboration with Arizona State University. After a few years as a Post-Doc at the University of Messina and University of Bologna (Italy), he spent 7 years working as a regulatory affairs specialist in the paint company Sherwin-Williams, based in Bologna. Since March 2023, he has been a Researcher at the University of Messina. His research focuses on the design, synthesis, and investigation of supramolecular systems for artificial photosynthesis. In parallel, he is also fabricating luminescent solar concentrators and studying the photophysical features and photovoltaic performances of the device.
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ISSN:2040-3364
2040-3372
DOI:10.1039/d3nr05897b