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Nanomaterials in Healthcare
Rohit Srivastava, Sujit Kumar Debnath, Rajendra Prasad
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R5,348
Discovery Miles 53 480
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Ships in 12 - 17 working days
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Key Points: Describes the different types of nanoparticles,
characterization, and methods of preparation Covers novel
fabrication, surface modification, and conjugation, to improve the
drug-delivery pattern Discusses the leading nanoparticulate systems
used for drug delivery or diagnosis Reviews industry-relevant
methods for synthesis of a nanocarrier system Includes a focused
section on the application of nanomaterials in cancer
This book comprises of chapters based on design of various advanced
nano-catalysts and offers a development of novel solutions for a
better sustainable energy future. The book includes all aspects of
physical chemistry, chemical engineering and material science. The
advances in nanoscience and nanotechnology help to find
cost-effective and environmentally sound methods of converting
naturally inspired resources into fuels, chemicals and energy. The
book leads the scientific community to the most significant
development in the focus research area. It provides a broad and
in-depth coverage of design and development advanced nano-catalyst
for various energy applications.
LCs are self-organized anisotropic fluids that are
thermodynamically located between the isotropic liquid and the
crystalline phase, exhibiting the fluidity of liquids as well as
the long-range lattice order that can only be found in crystalline
solids. The addition of nanomaterials to a LC material produces a
composite or colloidal dispersion and results into a revolutionary
change in their applications. This book will discuss the remarkable
performances of nano-particle aided liquid crystals in
metamaterials, photonics, functionalized polymer fibres, sensing,
and medical diagnostics.
This book comprises of chapters based on design of various advanced
nano-catalysts and offers a development of novel solutions for a
better sustainable energy future. The book includes all aspects of
physical chemistry, chemical engineering and material science. The
advances in nanoscience and nanotechnology help to find
cost-effective and environmentally sound methods of converting
naturally inspired resources into fuels, chemicals and energy. The
book leads the scientific community to the most significant
development in the focus research area. It provides a broad and
in-depth coverage of design and development advanced nano-catalyst
for various energy applications.
Solar Driven Green Hydrogen Generation and Storage presents the
latest research and technologies in hydrogen generation through
solar energy. With in-depth coverage of three key topics, the book
discusses green hydrogen technologies, solid hydrogen storage, and
the applications of hydrogen energy. The book begins with a deep
dive into photoelectrochemical water splitting, examining different
catalysts such as polymer-based catalysts and blue-titania
catalysts. Subsequent chapters then analyze hydrogen production
techniques, including photobiological, thermochemical and biomass
gasification methods. After reviewing key hydrogen storage
technologies, the book finishes with a summary on the applications
of hydrogen in various industry sectors. This is an essential
resource for students, researchers and engineers interested in
renewable energy, hydrogen production and energy storage.
This book focuses on the use of graphene and its derivatives for
application in cancer diagnosis and therapy. Readers are introduced
to graphene nanomaterial history, synthesis procedures, properties,
modifications, and applications in cancer research and development.
The wide-ranging properties of graphene nanomaterials can be
utilized for various cancer therapeutic and diagnostic
applications. The contents discuss these applications with simple
graphical overviews and provide comprehensive detail for a better
understanding of the state of the art. The book will be of interest
to professionals and academic researchers alike.
This book focuses on the use of graphene and its derivatives for
application in cancer diagnosis and therapy. Readers are introduced
to graphene nanomaterial history, synthesis procedures, properties,
modifications, and applications in cancer research and development.
The wide-ranging properties of graphene nanomaterials can be
utilized for various cancer therapeutic and diagnostic
applications. The contents discuss these applications with simple
graphical overviews and provide comprehensive detail for a better
understanding of the state of the art. The book will be of interest
to professionals and academic researchers alike.
This book is aimed at all those who are interested to understand
the current research going on in nanomaterial science from the
perspectives of biomedical, sensorial and energy applications
including all aspects of physical chemist, chemical engineers and
material scientist. Nanoscience and nanotechnology are at the
forefront of modern research. The fast growing economy in this area
requires experts with outstanding knowledge of nanoscience in
combination with the skills to apply this knowledge in new
products. A multidisciplinary scientific education is crucial to
provide industry and research institutes with top quality experts
who have a generic background in the different sub disciplines such
as electronics, physics, chemistry, material science,
biotechnology. The book covers recent advancement in nanoscience
and nanotechnology particularly highlights the utilization of
different types of nanomaterials in biomedical field, sensor and in
the energy application. On the other hand, it leads the reader to
the most significant recent developments in research. It provides a
broad and in-depth coverage of the nanoscale materials and its
depth significant applications.
This book is aimed at all those who are interested to understand
the current research going on in nanomaterial science from the
perspectives of biomedical, sensorial and energy applications
including all aspects of physical chemist, chemical engineers and
material scientist. Nanoscience and nanotechnology are at the
forefront of modern research. The fast growing economy in this area
requires experts with outstanding knowledge of nanoscience in
combination with the skills to apply this knowledge in new
products. A multidisciplinary scientific education is crucial to
provide industry and research institutes with top quality experts
who have a generic background in the different sub disciplines such
as electronics, physics, chemistry, material science,
biotechnology. The book covers recent advancement in nanoscience
and nanotechnology particularly highlights the utilization of
different types of nanomaterials in biomedical field, sensor and in
the energy application. On the other hand, it leads the reader to
the most significant recent developments in research. It provides a
broad and in-depth coverage of the nanoscale materials and its
depth significant applications.
The book introduces the oscillatory reaction and pattern formation
in the Belousov-Zhabotinsky (BZ) reaction that became model for
investigating a wide range of intriguing pattern formations in
chemical systems. So many modifications in classic version of BZ
reaction have been carried out in various experimental conditions
that demonstrate rich varieties of temporal oscillations and
spatio-temporal patterns in non- equilibrium conditions. Mixed-mode
versions of BZ reactions, which comprise a pair of organic
substrates or dual metal catalysts, have displayed very complex
oscillating behaviours and novel space-time patterns during
reaction processes. These characteristic spatio-temporal properties
of BZ reactions have attracted increasing attention of the
scientific community in recent years because of its comparable
periodic structures in electrochemical systems, polymerization
processes, and non-equilibrium crystallization phenomena. Instead,
non-equilibrium crystallization phenomena which lead to development
of novel crystal morphologies in constraint of thermodynamic
equilibrium conditions have been investigated and are said to be
stationary periodic structures. Efforts have continued to analyze
insight mechanisms and roles of reaction-diffusion mechanism and
self-organization in the growth of such periodic crystal patterns.
In this book, non-equilibrium crystallization phenomena, leading to
growth of some novel crystal patterns in dual organic substrate
modes of oscillatory BZ reactions have been discussed. Efforts have
been made to find out experimental parameters where transitions of
the spherulitic crystal patterns take place. The book provides the
scientific community and entrepreneurs with a thorough
understanding and knowledge of the growth and form of branched
crystal pattern in reaction-diffusion system and their
morphological transition.
This Brief focuses on the cancer therapy available till date, from
conventional drug delivery to nanomedicine in clinical trial. In
addition, it reports on future generation based nanotherapeutics
and cancer theranostic agent for effective therapeutic diagnosis
and treatment. Breast cancer was chosen as the model system in this
review. The authors give emphasis to multiple drug resistance (MDR)
and its mechanism and how to overcome it using the nanoparticle
approach.
This book provides up-to-date information on the prototypes used to
develop medical devices and explains the principles of biosensing
and theranostics. It also discusses the development of biosensor
and application-orientated design of medical devices. In addition
to summarizing the clinical validation of the developed techniques
and devices and the regulatory steps involved in their
commercialization, the book highlights the latest research and
translational technologies toward the development of point-of-care
devices in the health care. Lastly, it explores the current
opportunities, challenges and provides troubleshooting on the use
of biosensors in precision medicine. The book is helpful for
researchers and medical professionals working in the field of
clinical theranostics, and medical-device development wanting to
gain a better understanding into the principles and processes
involved in the development of biosensors.
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