Electrospray deposition of starch-containing laccase: A green technique for low-cost and eco-friendly biosensors

Recently a laccase-based biosensors with unprecedented reuse and storage capabilities in the detection of catechol compound has been manufactured using ambient Electrospray Deposition (ESD) technique. These biosensors showed to be reused up to 63 measurements on the same electrode just prepared at r...

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Veröffentlicht in:	Biosensors & bioelectronics 2025-01, Vol.267, p.116758, Article 116758
Hauptverfasser:	Castrovilli, Mattea Carmen, Gentili, Patrizia, Vitali, Alberto, Cerra, Sara, Palmeri, Federica, Fratoddi, Ilaria, Polentarutti, Maurizio, Bais, Giorgio, Gullo, Ludovica, Cartoni, Antonella
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Schlagworte:	ambient temperature Biosensing Techniques - methods Biosensor fabrication biosensors catechol Catechols - analysis electrodes electrophoresis Electrospray deposition Enzymes, Immobilized - chemistry fluorescence Fourier transform infrared spectroscopy Green Chemistry Technology Immobilization Laccase Laccase - chemistry nuclear magnetic resonance spectroscopy Reuse Starch Starch - chemistry X-radiation
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creator	Castrovilli, Mattea Carmen Gentili, Patrizia Vitali, Alberto Cerra, Sara Palmeri, Federica Fratoddi, Ilaria Polentarutti, Maurizio Bais, Giorgio Gullo, Ludovica Cartoni, Antonella
description	Recently a laccase-based biosensors with unprecedented reuse and storage capabilities in the detection of catechol compound has been manufactured using ambient Electrospray Deposition (ESD) technique. These biosensors showed to be reused up to 63 measurements on the same electrode just prepared at room temperature and pressure. In this new work the reasons behind such a high-performance functioning have been investigated by analysing the commercial sample of laccase with different chemical physics methods: Electrophoresis, Fourier Transform Infrared Spectroscopy, X-ray Fluorescence and Nuclear Magnetic Resonance Spectroscopy. The analyses reveal the presence of the starch in the sample and its essential role as stabilizing agent. Indeed, comparing the performance of starch/laccase-based biosensors with starch-free/laccase-based biosensors, both produced via ESD, showed that the starch-free biosensors lost about 40% of their performance after just the first wash. This suggests that the presence of starch in the laccase sample is a key factor in providing the high wash and storage resistance, which are essential for the fabrication of such devices. [Display omitted] •Starch promotes immobilization of laccase on the electrode surface for the development of the eco-friendly biosensor with the ESD technique.
doi_str_mv	10.1016/j.bios.2024.116758
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These biosensors showed to be reused up to 63 measurements on the same electrode just prepared at room temperature and pressure. In this new work the reasons behind such a high-performance functioning have been investigated by analysing the commercial sample of laccase with different chemical physics methods: Electrophoresis, Fourier Transform Infrared Spectroscopy, X-ray Fluorescence and Nuclear Magnetic Resonance Spectroscopy. The analyses reveal the presence of the starch in the sample and its essential role as stabilizing agent. Indeed, comparing the performance of starch/laccase-based biosensors with starch-free/laccase-based biosensors, both produced via ESD, showed that the starch-free biosensors lost about 40% of their performance after just the first wash. This suggests that the presence of starch in the laccase sample is a key factor in providing the high wash and storage resistance, which are essential for the fabrication of such devices. 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subjects	ambient temperature Biosensing Techniques - methods Biosensor fabrication biosensors catechol Catechols - analysis electrodes electrophoresis Electrospray deposition Enzymes, Immobilized - chemistry fluorescence Fourier transform infrared spectroscopy Green Chemistry Technology Immobilization Laccase Laccase - chemistry nuclear magnetic resonance spectroscopy Reuse Starch Starch - chemistry X-radiation
title	Electrospray deposition of starch-containing laccase: A green technique for low-cost and eco-friendly biosensors
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