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This book explores the potential of nanosystems as a
multidisciplinary science with the aim of the design and
development of smart sensing technologies using micro/nano
electrodes and novel nanosensing material. It discusses their
integration with MEMS, miniaturized transduction systems, novel
sensing strategies, and wearable sensors performing at POC for
diagnostics and personalized health care monitoring. It presents
basic concepts pertaining to nanobiosensor fabrication,
developments in the field of smart nanomaterials, nano-enabling
technologies, micro-nano hybrind platforms, and their applications
in healthcare.
This book describes novel microtechnologies and integration
strategies for developing a new class of assay systems to retrieve
desired health information from patients in real-time. The
selection and integration of sensor components and operational
parameters for developing point-of-care (POC) are also described in
detail. The basics that govern the microfluidic regimen and the
techniques and methods currently employed for fabricating
microfluidic systems and integrating biosensors are thoroughly
covered. This book also describes the application of microfluidics
in the field of cell and molecular biology, single cell biology,
disease diagnostics, as well as the commercially available systems
that have been either introduced or have the potential of being
used in research and development. This is an ideal book for aiding
biologists in understanding the fundamentals and applications of
microfluidics. This book also: Describes the preparatory methods
for developing 3-dimensional microfluidic structures and their use
for Lab-on-a-Chip design Explains the significance of
miniaturization and integration of sensing components to develop
wearable sensors for point-of-care (POC) Demonstrates the
application of microfluidics to life sciences and analytical
chemistry, including disease diagnostics and separations Motivates
new ideas related to novel platforms, valving technology,
miniaturized transduction methods, and device integration to
develop next generation sequencing Discusses future prospects and
challenges of the field of microfluidics in the areas of life
sciences in general and diagnostics in particular
This book describes novel microtechnologies and integration
strategies for developing a new class of assay systems to retrieve
desired health information from patients in real-time. The
selection and integration of sensor components and operational
parameters for developing point-of-care (POC) are also described in
detail. The basics that govern the microfluidic regimen and the
techniques and methods currently employed for fabricating
microfluidic systems and integrating biosensors are thoroughly
covered. This book also describes the application of microfluidics
in the field of cell and molecular biology, single cell biology,
disease diagnostics, as well as the commercially available systems
that have been either introduced or have the potential of being
used in research and development. This is an ideal book for aiding
biologists in understanding the fundamentals and applications of
microfluidics. This book also: Describes the preparatory methods
for developing 3-dimensional microfluidic structures and their use
for Lab-on-a-Chip design Explains the significance of
miniaturization and integration of sensing components to develop
wearable sensors for point-of-care (POC) Demonstrates the
application of microfluidics to life sciences and analytical
chemistry, including disease diagnostics and separations Motivates
new ideas related to novel platforms, valving technology,
miniaturized transduction methods, and device integration to
develop next generation sequencing Discusses future prospects and
challenges of the field of microfluidics in the areas of life
sciences in general and diagnostics in particular
This book explores the potential of nanosystems as a
multidisciplinary science with the aim of the design and
development of smart sensing technologies using micro/nano
electrodes and novel nanosensing material. It discusses their
integration with MEMS, miniaturized transduction systems, novel
sensing strategies, and wearable sensors performing at POC for
diagnostics and personalized health care monitoring. It presents
basic concepts pertaining to nanobiosensor fabrication,
developments in the field of smart nanomaterials, nano-enabling
technologies, micro-nano hybrind platforms, and their applications
in healthcare.
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