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8 matches in All Departments
Polymers for Controlled Drug Delivery addresses the challenges of
designing macromolecules that deliver therapeutic agents that
function safely and in concert with living organisms. The book
primarily discusses classes of polymers and polymeric vehicles,
including particulates, such as latexes, coacervates, ion-exchange
resins, and liposomes, as well as non-particulate vehicles such as
enteric coatings, mediators, and bioadhesives. Other topics
discussed include diffusion; biodegradation-controlled delivery;
animal model studies for toxicity, metabolism, and elimination
testing; and FDA requirements for clinical studies. Drug delivery
researchers will find this book to be an invaluable reference tool.
Polymers for Controlled Drug Delivery addresses the challenges of
designing macromolecules that deliver therapeutic agents that
function safely and in concert with living organisms. The book
primarily discusses classes of polymers and polymeric vehicles,
including particulates, such as latexes, coacervates, ion-exchange
resins, and liposomes, as well as non-particulate vehicles such as
enteric coatings, mediators, and bioadhesives. Other topics
discussed include diffusion; biodegradation-controlled delivery;
animal model studies for toxicity, metabolism, and elimination
testing; and FDA requirements for clinical studies. Drug delivery
researchers will find this book to be an invaluable reference tool.
The science and technology related to semiconductors have received
significant attention for applications in various fields including
microelectronics, nanophotonics, and biotechnologies. Understanding
of semiconductors has advanced to such a level that we are now able
to design novel system complexes before we go for the
proof-of-principle experimental demonstration. This book explains
the experimental setups for optical spectral analysis of
semiconductors and describes the experimental methods and the basic
quantum mechanical principles underlying the fast-developing
nanotechnology for semiconductors. Further, it uses numerous case
studies with detailed theoretical discussions and calculations to
demonstrate the data analysis. Covering structures ranging from
bulk to the nanoscale, it examines applications in the
semiconductor industry and biomedicine. Starting from the most
basic physics of geometric optics, wave optics, quantum mechanics,
solid-state physics, it provides a self-contained resource on the
subject for university undergraduates. The book can be further used
as a toolbox for researching and developing semiconductor
nanotechnology based on spectroscopy.
The science and technology related to semiconductors have received
significant attention for applications in various fields including
microelectronics, nanophotonics, and biotechnologies. Understanding
of semiconductors has advanced to such a level that we are now able
to design novel system complexes before we go for the
proof-of-principle experimental demonstration. This book explains
the experimental setups for optical spectral analysis of
semiconductors and describes the experimental methods and the basic
quantum mechanical principles underlying the fast-developing
nanotechnology for semiconductors. Further, it uses numerous case
studies with detailed theoretical discussions and calculations to
demonstrate the data analysis. Covering structures ranging from
bulk to the nanoscale, it examines applications in the
semiconductor industry and biomedicine. Starting from the most
basic physics of geometric optics, wave optics, quantum mechanics,
solid-state physics, it provides a self-contained resource on the
subject for university undergraduates. The book can be further used
as a toolbox for researching and developing semiconductor
nanotechnology based on spectroscopy.
The science and technology relating to nanostructures continues to
receive significant attention for its applications to various
fields including microelectronics, nanophotonics, and
biotechnology. This book describes the basic quantum mechanical
principles underlining this fast developing field. From the
fundamental principles of quantum mechanics to nanomaterial
properties, from device physics to research and development of new
systems, this title is aimed at undergraduates, graduates,
postgraduates, and researchers.
The science and technology relating to nanostructures continues to
receive significant attention for its applications to various
fields including microelectronics, nanophotonics, and
biotechnology. This book describes the basic quantum mechanical
principles underlining this fast developing field. From the
fundamental principles of quantum mechanics to nanomaterial
properties, from device physics to research and development of new
systems, this title is aimed at undergraduates, graduates,
postgraduates, and researchers.
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Aortic Valve (Hardcover)
Chen Ying-Fu, Chwan-Yau Luo
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R4,386
R4,024
Discovery Miles 40 240
Save R362 (8%)
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Ships in 10 - 15 working days
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This book discusses electrons and photons in and through
nanostructures by the first-principles quantum mechanical theories
and fundamental concepts (a unified coverage of nanostructured
electronic and optical components) behind nanoelectronics and
optoelectronics, the material basis, physical phenomena, device
physics, as well as designs and applications. The combination of
viewpoints presented in the book can help foster further research
and cross-disciplinary interaction needed to surmount the barriers
facing future generations of technology design.
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