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Molecular Fluorescence
This second edition of the well-established bestseller is completely updated and revised with approximately 30 % additional material, including two new chapters on applications, which has seen the most significant developments. The comprehensive overview written at an introductory level covers fundamental aspects, principles of instrumentation and practical applications, while providing many valuable tips. For photochemists and photophysicists, physical chemists, molecular physicists, biophysicists, biochemists and biologists, lecturers and students of chemistry, physics, and biology.
Topics in Fluorescence Spectroscopy
Time-resolved fluorescence spectroscopy is widely used as a research tool in bioch- istry and biophysics. These uses of fluorescence have resulted in extensive knowledge of the structure and dynamics of biological macromolecules. This information has been gained by studies of phenomena that affect the excited state, such as the local environment, quenching processes, and energy transfer. 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 emerging applications of time-resolved fluorescence are the result of continued advances in laser detector and computer technology. For instance, pho- multiplier tubes (PMT) were previously bulky devices. Miniature PMTs are now available, and the performance of simpler detectors is continually improving. There is also considerable effort to develop fluorophores that can be excited with the red/ne- infrared (NIR) output of laser diodes. Using such probes, one can readily imagine small time-resolved fluorometers, even hand-held devices, being used fordoctor’s office or home health care.
Introduction to Fluorescence
In color throughout, this text helps readers acquire a sound understanding of basic fluorescence theory and practice. It takes them through the history of important discoveries to the most current advances. The author introduces the fundamentals of the fluorescence phenomenon and gives detailed examples of fluorescence applications in the molecular life sciences, including biochemistry, biophysics, clinical chemistry and diagnostics, pharmaceutical science, and cell and molecular biology. The text includes references in each chapter, more than 250 figures, and the chemical structures of the most widely used fluorescent molecules.
Analytical Methods in Supramolecular Chemistry
An overview of the techniques used to examine supramolecular aggregates from a methodological point of view. Edited by a rising star in the community and an experienced author, this is a definitive survey of useful modern analytical methods for understanding supramolecular chemistry, from NMR to single-molecule spectroscopy, from electron microscopy to extraction methods. A definitive study of this field touching many interdisciplinary areas such as molecular devices, biology, bioorganic chemistry, material science, and nanotechnology.
Instrumental Methods Of Analysis
Instrumentation Techniques refer to the development of methods and tools used in applied physics, materials science and nanotechnology for design, synthesis, manufacturing, imaging or analytics for analytical chemists in special and all the material scientists in general. They form a basis for qualitative description of as well as quantitative estimation of various types of materials, samples, reaction intermediates and final products. The fundamental principles underlying these techniques, instrumentation involved in it, applications for routine analysis and current status of these techniques in research field have been covered in each chapter. The authors have taken all the efforts to make the language and topics simple to understand for the UG as well as PG students.
Chemosensors of Ion and Molecule Recognition
In the broad field of supramolecular chemistry, the design and hence the use of chemosensors for ion and molecule recognition have developed at an extroardinary rate. This imaginative and creative area which involves the interface of different disciplines, e.g. organic and inorganic chemistry, physical chemistry, biology, medicine, environmental science, is not only fundamental in nature. It is also clear that progress is most rewarding for several new sensor applications deriving from the specific signal delivered by the analyte-probe interaction. Indeed, if calcium sensing in real time for biological purposes is actually possible, owing to the emergence of efficient fluorescent receptors, ...
Picturing Shakespeare
This study investigates the capacity of Shakespeare’s texts – obviously destined for stage performances – to generate images and mental colours in the readers’ and in the spectators’ minds. Such notions as Ut pictura poesis and the paragoneare discussed in the first part of this book, along with the function and nature of colours. After considering the sets of correspondences and the major differences between texts and images, the author presents and analyzes some of his own illustrations of Shakespearean characters. Jean-Louis Claret, both a university professor specialized in Shakespeare’s theatre and an illustrator, proposes to shed light on the process that led him from the perusal of the written text to the visualization of visages. The voice of poets is unconventionally called upon to shed light on the complex mechanisms he describes.
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