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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.
Research & information: general --- biosensing --- point-of-care --- photoluminescence --- portable devices --- miniaturization --- biosensors --- C-reactive protein --- carbon nanotubes --- electrospinning --- electrochemical impedance --- superparamagnetic iron oxide nanoflowers --- lateral flow immunoassays --- biosensor --- extracellular vesicles --- exosomes --- paper device --- signal enhancement --- mercury ion --- colorimetric detection --- paper-based origami sensor --- three-dimensional microfluidic --- potentiometric --- carbon paste electrode --- biomarker --- carbon nanofiber --- cellulose --- diagnostics --- immunoassay --- lateral flow assays --- paper --- point-of-care testing --- troponin I --- nanobioengineering --- matrix design --- cytosensing --- human health --- SPIONs --- encapsulation --- PLGA --- lipid --- lipid–polymer hybrid nanoparticles --- lateral flow immunoassays (LFIA) --- wearables --- paper microfluidics --- fabric microfluidics --- solid-state sensors --- electrochemical (bio)sensor --- clinical analysis --- paper sensors --- toxic substances --- biological receptors --- optical detection --- electrochemical methods --- rapid tests --- DNA --- enzyme --- antibody --- cell --- molecularly imprinted polymers --- lateral flow immunoassay --- carcinoembryonic antigen --- cancer diagnosis --- smartphone-based sensors --- biosensing --- point-of-care --- photoluminescence --- portable devices --- miniaturization --- biosensors --- C-reactive protein --- carbon nanotubes --- electrospinning --- electrochemical impedance --- superparamagnetic iron oxide nanoflowers --- lateral flow immunoassays --- biosensor --- extracellular vesicles --- exosomes --- paper device --- signal enhancement --- mercury ion --- colorimetric detection --- paper-based origami sensor --- three-dimensional microfluidic --- potentiometric --- carbon paste electrode --- biomarker --- carbon nanofiber --- cellulose --- diagnostics --- immunoassay --- lateral flow assays --- paper --- point-of-care testing --- troponin I --- nanobioengineering --- matrix design --- cytosensing --- human health --- SPIONs --- encapsulation --- PLGA --- lipid --- lipid–polymer hybrid nanoparticles --- lateral flow immunoassays (LFIA) --- wearables --- paper microfluidics --- fabric microfluidics --- solid-state sensors --- electrochemical (bio)sensor --- clinical analysis --- paper sensors --- toxic substances --- biological receptors --- optical detection --- electrochemical methods --- rapid tests --- DNA --- enzyme --- antibody --- cell --- molecularly imprinted polymers --- lateral flow immunoassay --- carcinoembryonic antigen --- cancer diagnosis --- smartphone-based sensors
Choose an application
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.
Research & information: general --- biosensing --- point-of-care --- photoluminescence --- portable devices --- miniaturization --- biosensors --- C-reactive protein --- carbon nanotubes --- electrospinning --- electrochemical impedance --- superparamagnetic iron oxide nanoflowers --- lateral flow immunoassays --- biosensor --- extracellular vesicles --- exosomes --- paper device --- signal enhancement --- mercury ion --- colorimetric detection --- paper-based origami sensor --- three-dimensional microfluidic --- potentiometric --- carbon paste electrode --- biomarker --- carbon nanofiber --- cellulose --- diagnostics --- immunoassay --- lateral flow assays --- paper --- point-of-care testing --- troponin I --- nanobioengineering --- matrix design --- cytosensing --- human health --- SPIONs --- encapsulation --- PLGA --- lipid --- lipid–polymer hybrid nanoparticles --- lateral flow immunoassays (LFIA) --- wearables --- paper microfluidics --- fabric microfluidics --- solid-state sensors --- electrochemical (bio)sensor --- clinical analysis --- paper sensors --- toxic substances --- biological receptors --- optical detection --- electrochemical methods --- rapid tests --- DNA --- enzyme --- antibody --- cell --- molecularly imprinted polymers --- lateral flow immunoassay --- carcinoembryonic antigen --- cancer diagnosis --- smartphone-based sensors
Choose an application
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.
biosensing --- point-of-care --- photoluminescence --- portable devices --- miniaturization --- biosensors --- C-reactive protein --- carbon nanotubes --- electrospinning --- electrochemical impedance --- superparamagnetic iron oxide nanoflowers --- lateral flow immunoassays --- biosensor --- extracellular vesicles --- exosomes --- paper device --- signal enhancement --- mercury ion --- colorimetric detection --- paper-based origami sensor --- three-dimensional microfluidic --- potentiometric --- carbon paste electrode --- biomarker --- carbon nanofiber --- cellulose --- diagnostics --- immunoassay --- lateral flow assays --- paper --- point-of-care testing --- troponin I --- nanobioengineering --- matrix design --- cytosensing --- human health --- SPIONs --- encapsulation --- PLGA --- lipid --- lipid–polymer hybrid nanoparticles --- lateral flow immunoassays (LFIA) --- wearables --- paper microfluidics --- fabric microfluidics --- solid-state sensors --- electrochemical (bio)sensor --- clinical analysis --- paper sensors --- toxic substances --- biological receptors --- optical detection --- electrochemical methods --- rapid tests --- DNA --- enzyme --- antibody --- cell --- molecularly imprinted polymers --- lateral flow immunoassay --- carcinoembryonic antigen --- cancer diagnosis --- smartphone-based sensors
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