Fluorescence of supermolecules, polymers, and nanosystems

The field of fluorescence continues to steadily grow, both in its fundamental aspects and in applications in highly interdisciplinary areas including analytical, physical and organic chemistry, molecular sciences, biology, biomedicine and medical research. The 4th volume in the Springer Series on Fl...

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Other Authors: Berberan-Santos, M. N., SpringerLink (Online service)
Format: eBook
Language: English
Published: Berlin ; New York : Springer, ©2008.
Berlin ; New York : [2008]
Physical Description: 1 online resource (xvii, 468 pages) : illustrations (some color).
Series: Springer series on fluorescence ; 4.
Subjects:
Summary: The field of fluorescence continues to steadily grow, both in its fundamental aspects and in applications in highly interdisciplinary areas including analytical, physical and organic chemistry, molecular sciences, biology, biomedicine and medical research. The 4th volume in the Springer Series on Fluorescence focuses on the fluorescence of nanosystems, polymers and supermolecules, and the development and application of fluorescent probes. Special emphasis is placed on the fluorescence of artificial and biological nanosystems, single molecule fluorescence and the luminescence of polymers, micro- and nanoparticles and nanotubes. Fluorescence microscopy and fluorescence correlation spectroscopy are covered as well. Historical aspects of this growing field and an overview of fluorescence applications are also provided.
Item Description: Includes bibliographical references and index.
The field of fluorescence continues to steadily grow, both in its fundamental aspects and in applications in highly interdisciplinary areas including analytical, physical and organic chemistry, molecular sciences, biology, biomedicine and medical research. The 4th volume in the Springer Series on Fluorescence focuses on the fluorescence of nanosystems, polymers and supermolecules, and the development and application of fluorescent probes. Special emphasis is placed on the fluorescence of artificial and biological nanosystems, single molecule fluorescence and the luminescence of polymers, micro- and nanoparticles and nanotubes. Fluorescence microscopy and fluorescence correlation spectroscopy are covered as well. Historical aspects of this growing field and an overview of fluorescence applications are also provided.
History and Fundamental Aspects -- Early History of Solution Fluorescence: The Lignum nephriticum of Nicolás Monardes -- From Well-Known to Underrated Applications of Fluorescence -- Principles of Directed Electronic Energy Transfer -- Luminescence Decays with Underlying Distributions of Rate Constants: General Properties and Selected Cases -- Fluorescence as the Choice Method for Single-Molecule Detection -- Molecular and Supramolecular Systems -- Water-soluble Fluorescent Chemosensors: in Tune with Protons -- Fluorescence of Fullerenes -- Squeezing Fluorescent Dyes into Nanoscale Containers-The Supramolecular Approach to Radiative Decay Engineering -- Polymers, Semiconductors, Model Membranes and Cells -- Resonance Energy Transfer in Polymer Interfaces -- Defocused Imaging in Wide-field Fluorescence Microscopy -- Dynamics of Excited States and Charge Photogeneration in Organic Semiconductor Materials -- Resonance Energy Transfer in Biophysics: Formalisms and Application to Membrane Model Systems -- Measuring Diffusion in a Living Cell Using Fluorescence Correlation Spectroscopy. A Closer Look at Anomalous Diffusion Using HIV-1 Integrase and its Interactions as a Probe -- Pushing the Complexity of Model Bilayers: Novel Prospects for Membrane Biophysics -- Nanotubes, Microparticles and Nanoparticles -- Photoluminescence Properties of Carbon Nanotubes -- Fluorescence Correlation Spectroscopic Studies of a Single Lipopolyamine-DNA Nanoparticle -- Morphology-Dependent Resonance Emission from Individual Micron-Sized Particles -- New Plastic Microparticles and Nanoparticles for Fluorescent Sensing and Encoding.
English.
University staff and students only. Requires University Computer Account login off-campus.
Physical Description: 1 online resource (xvii, 468 pages) : illustrations (some color).
Bibliography: Includes bibliographical references and index.
ISBN: 9783540739289
3540739289
9783540739272
3540739270
6611118349
9786611118341
Access: University staff and students only. Requires University Computer Account login off-campus.