1. Cellulose-Based Biosensing Platforms.
- Author
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Morales-Narváez, Eden, Golmohammadi, Hamed, Morales-Narváez, Eden, Zor, Erhan, and de la Escosura-Muñiz, Alfredo
- Subjects
Research & information: general ,C-reactive protein ,DNA ,PLGA ,SPIONs ,antibody ,biological receptors ,biomarker ,biosensing ,biosensor ,biosensors ,cancer diagnosis ,carbon nanofiber ,carbon nanotubes ,carbon paste electrode ,carcinoembryonic antigen ,cell ,cellulose ,clinical analysis ,colorimetric detection ,cytosensing ,diagnostics ,electrochemical (bio)sensor ,electrochemical impedance ,electrochemical methods ,electrospinning ,encapsulation ,enzyme ,exosomes ,extracellular vesicles ,fabric microfluidics ,human health ,immunoassay ,lateral flow assays ,lateral flow immunoassay ,lateral flow immunoassays ,lateral flow immunoassays (LFIA) ,lipid ,lipid-polymer hybrid nanoparticles ,matrix design ,mercury ion ,miniaturization ,molecularly imprinted polymers ,nanobioengineering ,optical detection ,paper ,paper device ,paper microfluidics ,paper sensors ,paper-based origami sensor ,photoluminescence ,point-of-care ,point-of-care testing ,portable devices ,potentiometric ,rapid tests ,signal enhancement ,smartphone-based sensors ,solid-state sensors ,superparamagnetic iron oxide nanoflowers ,three-dimensional microfluidic ,toxic substances ,troponin I ,wearables - Abstract
Summary: Cellulose empowers measurement science and technology with a simple, low-cost, and highly transformative analytical platform. This book helps the reader to understand and build an overview of the state of the art in cellulose-based (bio)sensing, particularly in terms of the design, fabrication, and advantageous analytical performance. In addition, wearable, clinical, and environmental applications of cellulose-based (bio)sensors are reported, where novel (nano)materials, architectures, signal enhancement strategies, as well as real-time connectivity and portability play a critical role.