This book presents a collection of chapters on modern bioelectrochemistry, showing different aspects of biodevices. The chapters cover biomedical applications, virus and antigens detection, miniaturized and wearable devices, screen-printed biosensors, hybrids surfaces, point-of-care and molecular diagnoses. They provide relevant bibliographic information for researchers and students interested in field effect transistors for biomedical applications, virus and antigens detection in immuno technologies and biosensors in point-of-care for molecular analysis, with strategies and perspectives to…mehr
This book presents a collection of chapters on modern bioelectrochemistry, showing different aspects of biodevices. The chapters cover biomedical applications, virus and antigens detection, miniaturized and wearable devices, screen-printed biosensors, hybrids surfaces, point-of-care and molecular diagnoses. They provide relevant bibliographic information for researchers and students interested in field effect transistors for biomedical applications, virus and antigens detection in immuno technologies and biosensors in point-of-care for molecular analysis, with strategies and perspectives to healthcare. This book also presents insights on advantages and properties of materials aiming biosensors applications.
Frank Crespilho is Professor of Physical-Chemistry at the Chemistry Institute of University of São Paulo, São Carlos since 2012. He was Associate Professor of Chemistry at Federal University of ABC, Brazil (2009-2012), Visiting Associate in Chemistry at California Institute of Technology, Caltech (EUA), and Visiting Professor at Max-Planck-Institute for Solid State Research, Stuttgart, Germany (2016). He was Visiting Professor at Harvard University (2018-2019) at the lab of Prof. Michael Aziz and since 2019 he is Fellow of the J. A. P. School of Engineering and Applied Sciences, Harvard University. He is the Coordinator of COVID-19 Network in metabolomics and diagnostics chemistry at the University of São Paulo. He was one of the inventors of the "Popular Fast Test of COVID-19", costing less than a dollar, for mass testing in developing countries. His research interests include fundamental and applied bioelectrochemistry with a distinctive focus on the chemistry of energy, life and health. His work combines physical chemical methods and instrumentation development timely application to biological fuel cells and bioinspired batteries, biosensors technology and electron transfer reactions in biological system. His recent work focuses on in situ and operando spectroscopic-electrochemistry elucidation of the electron transfer mechanism involving redox enzyme, proteins, DNA, and drug delivery in single cells. He has made contributions on the field of protein immobilization processes on solid surfaces, single cells micro-FTIR analysis, bio-electrocatalysis and coupling analytical tools to resolve electron transfer mechanism in proteins. Dr. Crespilho developed a technique named Electrochemical Coupled Vibrational Spectromicroscopy (EVSM), which consist in a multiplex infrared spectroscopy imaging system for monitoring spatially resolved redox chemistry in bioelectrodes, bioinorganic molecules, biological films and single cells.
Inhaltsangabe
Protein Engineering for Bioelectrodes.- Organic Semiconductors as Support Material for Electrochemical Biorecognition.- Graphene-Based Bioelectronics.- Field Effect Transistors in Biomedical Applications.- Inorganic Complexes and Metal-Based for Biomarkers Sensors.- Fibers, Nanotubes and Nanoribbons Applied in Biodevices.- Hybrids of conjugated polymers for biosensors applications.- Wearable Electrochemical Biosensors.- Biosensors Applied in Viral Diseases.- 2D and 3D-Printing Miniaturized Devices for Electrochemical Detection of Biomarkers.- Large-scale Techniques Applied to Biosensors Manufacture.
Protein Engineering for Bioelectrodes.- Organic Semiconductors as Support Material for Electrochemical Biorecognition.- Graphene-Based Bioelectronics.- Field Effect Transistors in Biomedical Applications.- Inorganic Complexes and Metal-Based for Biomarkers Sensors.- Fibers, Nanotubes and Nanoribbons Applied in Biodevices.- Hybrids of conjugated polymers for biosensors applications.- Wearable Electrochemical Biosensors.- Biosensors Applied in Viral Diseases.- 2D and 3D-Printing Miniaturized Devices for Electrochemical Detection of Biomarkers.- Large-scale Techniques Applied to Biosensors Manufacture.
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