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Infrared and Raman Spectroscopy of Biological Materials facilitates
a comprehensive and through understanding of the latest
developments in vibrational spectroscopy. It contains explains key
breakthroughs in the methodologies and techniques for infrared,
near-infrared, and Raman spectroscopy. Topics include qualitative
and quantitative analysis, biomedical applications, vibrational
studies of enzymatic catalysis, and chemometrics.
"Addresses the key topic in combinatorial synthesis--how to
optimize the quality of a combinatorial library--by determining the
usefulness of synthesized compunds, the reliability of biological
assay results, and analyzing acadmic and industrial applications,
real-world examples, and case studies of successful and
unsuccessful technologies."
Since the publication of the benchmark first edition of this book,
chemical library and combinatorial chemistry methods have developed
into mature technologies. There have also been significant shifts
in emphasis in combinatorial synthesis. Reflecting the growth in
the field and the heightened focus on select areas, Analytical
Methods in Combinatorial Chemistry, Second Edition updates a
classic text and captures the current state of these technologies.
Written by leaders in the field, this second edition includes
several enhancements. A chapter on high-throughput analytical
methods and informatics reflects the demand for quality control of
library members. A new chapter focuses on high-throughput
purification methods. All chapters have been updated with new data.
Topics discussed in this second edition include: Properties of
solid-phase samples, analytical studies targeted to understand
these properties, and resin swelling Fourier Transform Infrared
techniques On-support mass spectrometry and nuclear magnetic
resonance methods used in the reaction optimization stage
Combinatorial library analysis using spectrophotometric,
fluorometric, and other methods Quality control of combinatorial
libraries High-throughput purification methods Future directions
and analytical challenges The coming decade is sure to usher in a
new wave of progress in this critical field. This volume provides
not only an analysis of the recent developments in analytical
methods, technologies and applications; it also provides a window
on future possibilities.
"Addresses the key topic in combinatorial synthesis--how to
optimize the quality of a combinatorial library--by determining the
usefulness of synthesized compunds, the reliability of biological
assay results, and analyzing acadmic and industrial applications,
real-world examples, and case studies of successful and
unsuccessful technologies."
This book brings together reviews from international experts who
are exploring the biological activities of nanomaterials for
medical applications or to better understand nanotoxicity. Topics
include but are not limited to the following: 1) mechanistic
understanding of nanostructure-bioactivity relationships; 2) the
regulation of nanoparticles' bioactivity by means of chemical
modification; 3) the new methodologies and standard methods used to
assess nanoparticles' bioactivity; 4) the mechanisms involved in
nanoparticle-biomolecule interactions and nanoparticle-cell
interactions; and 5) biomedical applications of nanotechnology. The
book will be a valuable resource for a broad readership in various
subfields of chemical science, engineering, biology, environment,
and medicine.
This book presents the main research advances in the field of
photofunctional rare earth hybrid materials. The first chapter
discusses the fundamental principles, ranging from rare earth, rare
earth luminescence, luminescent rare earth compounds and
photofunctional rare earth hybrid materials. The main body of the
book consists of six chapters exploring different kinds of
photofunctional hybrid materials, such as hybrids based on
organically modified silica; organically modified mesoporous
silica; functionalized microporous zeolite and metal-organic
frameworks; polymer or polymer/silica composite; and
multi-component assembly of hybrids. It also includes a chapter
introducing the photofunctional application of these hybrid
materials. It is a valuable resource for a wide readership in
various fields of rare earth chemistry, chemical science and
materials science.
This book brings together reviews from international experts who
are exploring the biological activities of nanomaterials for
medical applications or to better understand nanotoxicity. Topics
include but are not limited to the following: 1) mechanistic
understanding of nanostructure-bioactivity relationships; 2) the
regulation of nanoparticles' bioactivity by means of chemical
modification; 3) the new methodologies and standard methods used to
assess nanoparticles' bioactivity; 4) the mechanisms involved in
nanoparticle-biomolecule interactions and nanoparticle-cell
interactions; and 5) biomedical applications of nanotechnology. The
book will be a valuable resource for a broad readership in various
subfields of chemical science, engineering, biology, environment,
and medicine.
Rare Earth Metal-Organic Framework Hybrid Materials for
Luminescence Responsive Chemical Sensors primarily focuses on rare
earth functionalized metal-organic framework (MOF) hybrid materials
for sensing applications. Sections cover an introduction to the
field and key concepts like luminescence, rare earth ion
luminescence and luminescence response for chemical sensing. Other
section emphasize the luminescence response mode and sensing
mechanisms of these important materials, including single mode and
dual mode sensing, as well as chemical sensing mechanisms. Final
sections outline different kinds of sensing analytes by rare earth
functionalized MOFs hybrids and delve into emerging application.
This book is suitable for materials scientists and engineers,
materials chemists, chemists and chemical engineers. In addition,
the material is appropriate for those working in academia and
R&D in industry.
Since the publication of the benchmark first edition of this book,
chemical library and combinatorial chemistry methods have developed
into mature technologies. There have also been significant shifts
in emphasis in combinatorial synthesis. Reflecting the growth in
the field and the heightened focus on select areas, Analytical
Methods in Combinatorial Chemistry, Second Edition updates a
classic text and captures the current state of these technologies.
Written by leaders in the field, this second edition includes
several enhancements. A chapter on high-throughput analytical
methods and informatics reflects the demand for quality control of
library members. A new chapter focuses on high-throughput
purification methods. All chapters have been updated with new data.
Topics discussed in this second edition include: Properties of
solid-phase samples, analytical studies targeted to understand
these properties, and resin swelling Fourier Transform Infrared
techniques On-support mass spectrometry and nuclear magnetic
resonance methods used in the reaction optimization stage
Combinatorial library analysis using spectrophotometric,
fluorometric, and other methods Quality control of combinatorial
libraries High-throughput purification methods Future directions
and analytical challenges The coming decade is sure to usher in a
new wave of progress in this critical field. This volume provides
not only an analysis of the recent developments in analytical
methods, technologies and applications; it also provides a window
on future possibilities.
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