Silicon-based fluorescent platforms for copper(ii) detection in water |
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| Authors: | Mariangela Oggianu Cristiana Figus Suchithra Ashoka-Sahadevan Noemi Monni Daniela Marongiu Michele Saba Andrea Mura Giovanni Bongiovanni Claudia Caltagirone Vito Lippolis Carla Cannas Enzo Cadoni Maria Laura Mercuri Francesco Quochi |
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| Affiliation: | Dipartimento di Scienze Chimiche e Geologiche, Università degli Studi di Cagliari, Complesso Universitario di Monserrato, I-09042 Monserrato (CA) Italy.; Dipartimento di Fisica, Università degli Studi di Cagliari, Complesso Universitario di Monserrato, I-09042 Monserrato (CA) Italy.; INSTM, Cagliari Unit, Via Giuseppe Giusti, 9, I-50121 Firenze Italy |
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| Abstract: | The potential of silicon-based fluorescent platforms for the detection of trace toxic metal ions was investigated in an aqueous environment. To this aim, silicon chips were first functionalized with amino groups, and fluorescein organic dyes, used as sensing molecules, were then covalently linked to the surface via formation of thiourea groups. The obtained hybrid heterostructures exhibited high sensitivity and selectivity towards copper(ii), a limit of detection compatible with the recommended upper limits for copper in drinking water, and good reversibility using a standard metal–chelating agent. The fluorophore–analyte interaction mechanism at the basis of the reported fluorescence quenching, as well as the potential of performance improvement, were also studied. The herein presented sensing architecture allows, in principle, tailoring of the selectivity towards other metal ions by proper fluorophore selection, and provides a favorable outlook for integration of fluorescent chemosensors with silicon photonics technology.Covalent linkage of fluorescein to silanized silicon chips yields solid-state platforms for detection of copper(ii) in water. This architecture represents a step forward towards the fabrication of sensors for remote water analysis applications. |
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