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In this inaugural volume of a new series, experts in the field help biochemists, analytical chemists, spectroscopists, biophysicists, and other specialists keep up with the latest techniques and technologies available in fluorescence spectroscopy.
Fluorescence has become the dominant tool in biotechnology and medical imaging. This work aims to summarize the state-of-the-art in fluorescent sensing. It contains chapters that deal with small molecule sensors, such as anions, cations, and CO2. It also has chapters that offer information about protein-based and macromolecular sensors.
An essential reference for any laboratory working in the analytical fluorescence glucose sensing field. This volume incorporates analytical fluorescence-based glucose sensing reviews, specialized enough to be attractive to professional researchers, yet appealing to a wider audience of scientists in related disciplines of fluorescence.
During recent years our enthusiasm for this field has continually increased. This book presents expert contributions describing the fundamental principles for the widespread use of radiative decay engineering in the biological sciences and nanotechnology.
During recent years our enthusiasm for this field has continually increased. This book presents expert contributions describing the fundamental principles for the widespread use of radiative decay engineering in the biological sciences and nanotechnology.
Time-resolved fluorescence spectroscopy is widely used as a research tool in bioch- istry and biophysics. Topics in Fluorescence Spectroscopy, Volume 4: Probe Design and Chemical Sensing reflects a new trend, which is the use of time-resolved fluorescence in analytical and clinical chemistry.
These volumes describe the more recent techniques and technologies (Volume 1), the principles governing fluorescence and the experimental observables (Volume 2), and applications in biochemistry and biophysics (Volume 3).
These volumes describe the more recent techniques and technologies (Volume 1), the principles governing fluorescence and the experimental observables (Volume 2), and applications in biochemistry and biophysics (Volume 3).
These volumes describe the more recent techniques and technologies (Volume 1), the principles governing fluorescence and the experimental observables (Volume 2), and applications in biochemistry and biophysics (Volume 3).
The intrinsic or natural fluorescence of proteins is perhaps the most complex area of biochemical fluorescence. The emission of each residue is affected by several excited state processes including spectral relaxation, proton loss for tyrosine, rotational motions and the presence of nearby quenching groups on the protein.
Since the early observations of two-photon excitation in the 1960s, multi-photon spectroscopy has been limited to somewhat exotic applications of chemical physics, where it is used to study the electronic symmetry of small molecules.
An essential reference for any laboratory working in the analytical fluorescence glucose sensing field. This volume incorporates analytical fluorescence-based glucose sensing reviews, specialized enough to be attractive to professional researchers, yet appealing to a wider audience of scientists in related disciplines of fluorescence.
Fluorescence has become the dominant tool in biotechnology and medical imaging. Encompassing a range of fluorescence sensing techniques, this work contains some chapters that deal with small molecule sensors, such as for anions, cations, and CO2, while others summarize advances in protein-based and macromolecular sensors.
In this inaugural volume of a new series, experts in the field help biochemists, analytical chemists, spectroscopists, biophysicists, and other specialists keep up with the latest techniques and technologies available in fluorescence spectroscopy.
These volumes describe the more recent techniques and technologies (Volume 1), the principles governing fluorescence and the experimental observables (Volume 2), and applications in biochemistry and biophysics (Volume 3).
Time-resolved fluorescence spectroscopy is widely used as a research tool in bioch- istry and biophysics. Topics in Fluorescence Spectroscopy, Volume 4: Probe Design and Chemical Sensing reflects a new trend, which is the use of time-resolved fluorescence in analytical and clinical chemistry.
DNA analysis is ubiquitous in molecular biology, medical diagnostics, and forensics. This volume presents an overview of many aspects of DNA technology. The chapters provide an understanding of the underlying principles and technology. It is useful for bench scientists and industry professionals.
The intrinsic or natural fluorescence of proteins is perhaps the most complex area of biochemical fluorescence. The emission of each residue is affected by several excited state processes including spectral relaxation, proton loss for tyrosine, rotational motions and the presence of nearby quenching groups on the protein.
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