Dedication to Professor Agustín Costa-García: Screen-Printed Electrodes-Based (Bio)sensors: Development and New Challenges of the 21st Century

doi:10.3390/books978-3-0365-1321-8

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Dedication to Professor Agustín Costa-García: Screen-Printed Electrodes-Based (Bio)sensors: Development and New Challenges of the 21st Century

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October 2021

370 pages

ISBN978-3-0365-1322-5 (Hardback)
ISBN978-3-0365-1321-8 (PDF)

https://doi.org/10.3390/books978-3-0365-1321-8

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This book is a reprint of the Special Issue Dedication to Professor Agustín Costa-García: Screen-Printed Electrodes-Based (Bio)sensors: Development and New Challenges of the 21st Century that was published in

Biology & Life Sciences

Chemistry & Materials Science

Engineering

Summary

The main topic of this book is Screen-Printed Electrode (SPE) transducers used as miniaturized and disposable detection devices for specific chemical (or set of chemicals) and biomolecule analyses in different fields with serious concerns worldwide (such as healthcare, food quality, food safety, and pollution). Thus, this book gathered original articles and reviews presenting research advances, fabrication, innovative applications, new challenges, and future perspectives for SPE-based (Bio)sensors in important areas such as health, agri-foods, and the environment.Screen-printing is a promising method for “fast and cheap” production of (bio)sensors. Disposable (bio)sensors based on SPEs have led to new possibilities in the selective detection and sensitive quantification of a large number of chemicals and biomolecules. SPE-based sensors, including microelectrodes (metallic and non-metallic) and modified electrodes (by chemical/electrochemical reactions or by nanomaterials integration), are in tune with the growing need for the development of portable devices and for performing rapid and accurate in situ analyses.

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Keywords

immunosensor; electrochemical impedance spectroscopy; growth hormone; real samples; diazonium grafting; brewers’ spent grain; biochar; screen-printed electrode; biosensor; tyrosinase; diazonium; biosensor; surface modification; metal nanoparticles; bimetallic alloys; metal oxides; screen printed electrode; ink-mixing; drop casting; electrodeposition; electrocatalysis; enzymatic sensor; enzyme-free sensor; graphene oxide; electroanalytical sensing; dopamine; uric acid; screen-printed electrodes; screen-printed electrodes; electrochemical (bio)sensors; pesticides; point-of-care; food control; aptamer; alpha-fetoprotein; dissociation constant; rolling circle amplification; terminal deoxynucleotidyl transferase; paper electrodes; bismuth films; mercury films; low-cost analysis; heavy metal determination; electrochemical immunoassays; microfluidic chips; screen-printed; sepsis; screen-printed; electrochemical (bio)sensing; paper; wearable; environmental monitoring; clinical analysis; electrochemical biosensor; visceral leishmaniasis; Chagas disease; gold nanoparticles; point-of-care; portable analysis; 8-channel screen-printed electrochemical arrays; zip nucleic acids; SNP; electrochemical impedance spectroscopy; screen-printed electrodes; inkjet-printed electrodes; immunoassays; cancer; biomarkers; protein; screen-printed electrodes; nanomaterials; enzymatic biosensor; immunosensor; DNA sensor; laser ablation ICP-MS; surface characterization; bismuth film electrodes; screen-printed electrodes; trace electroanalysis; screen-printed sensor; sweat analysis; ion-selective electrode; chloride; cystic fibrosis; screen-printed electrode; electroanalysis; electrochemical sensor; biosensor; immunosensor; food analysis; bacteria; biogenic amines; histamine; microfluidics; electroanalysis; paper-based devices (µPADs); paper-based electroanalytical devices (ePADs); screen-printed electrodes