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This interdisciplinary book, Advanced Microscopy: A Strong
Analytical Tool in Materials Science, covers the methodology and
applications of different advanced microscopic techniques in
various research fields, including chemistry, nanotechnology,
polymers, chemical engineering, and biomedical engineering,
providing an informative overview that helps to determine the best
applications for advanced materials. Materials usually behave very
differently at nanoscale in all aspects, and this volume shows how
microscopy can help provide a detailed understanding of materials
such as semiconductors, metals, polymers, biopolymers, etc. The
volume illustrates advanced microscopic techniques that include
scanning electron microscopy (SEM), transmission electron
microscopy (TEM), atomic force microscopy (AFM), confocal
microscopy, and others. The microscopy techniques presented in the
volume show applications in many areas of science, including botany
and plant science, medicine, nanotechnology, chemistry, food
science, waste management, and others. This book presents the
diverse advanced microscopic techniques for researchers, giving a
better understanding as well as implementation of novel techniques
in materials science.
This brief explores recent progress in the area of polysaccharides
and their composites and nanocomposites. It is a complete resource
for the evolving field of polysaccharide based biomaterials and
their applications in different fields. The volume focuses on their
composition, properties, characterization, chemistry and
applications and also highlights recent developments in
polysaccharide based composites and nanocomposites spurred by
advances in polymer technology and biotechnology. Divided into
different sections featuring alginates, carrageenans, cellulose,
starch, chitin, chitosan, gums, etc, each chapter presents
chemical, physical, and biological attributes, and reviews the
recent research performed such as drug carriers, selective water
absorption materials from oil-water emulsions, purification of
water, biomedical applications, etc. The authors hope that this
brief will help to inspire scientists towards novel sources for
chemicals, materials, and energy in the years to come.
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