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1999, ISBN: 0471987328
[EAN: 9780471987321], Nieuw boek, [SC: 12.11], [PU: John Wiley & Sons], SCIENCE PHYSICS QUANTUM THEORY CHEMISTRY PHYSICAL & THEORETICAL CHEMIE ENERGIEÜBERTRAGUNG MOLEKULARDYNAMIK PHYSIKAL… Mehr…
1999, ISBN: 9780471987321
Gebundene Ausgabe
Wiley, Gebundene Ausgabe, Auflage: 1. 488 Seiten, Publiziert: 1999-03-23T00:00:01Z, Produktgruppe: Buch, 0.94 kg, Chemie, Naturwissenschaften & Technik, Kategorien, Bücher, Ingenieurwisse… Mehr…
1999
ISBN: 9780471987321
Wiley?Blackwell, Relié, 488 Seiten, Publiziert: 1999-03-23T00:00:01Z, Produktgruppe: Livre, 2.06 kg, Livres en anglais, Chercher au Coeur!, Boutiques, Livres, Livres anglais et étrangers,… Mehr…
1999, ISBN: 9780471987321
Gebundene Ausgabe
Wiley, Hardcover, Auflage: 1, 488 Seiten, Publiziert: 1999-03-23T00:00:01Z, Produktgruppe: Book, 0.94 kg, Books Global Store, Special Features, Books, Physical Chemistry, Chemistry, Scien… Mehr…
1999, ISBN: 9780471987321
[PU: John Wiley & Sons], Gepflegter, sauberer Zustand. Aus der Auflösung einer renommierten Bibliothek. Kann Stempel beinhalten. 711034/202 Altersfreigabe FSK ab 0 Jahre, DE, [SC: 3.00],… Mehr…
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Detailangaben zum Buch - Resonance Energy Transfer
EAN (ISBN-13): 9780471987321
ISBN (ISBN-10): 0471987328
Gebundene Ausgabe
Erscheinungsjahr: 1999
Herausgeber: Wiley
488 Seiten
Gewicht: 0,812 kg
Sprache: eng/Englisch
Buch in der Datenbank seit 2008-05-13T00:47:45+02:00 (Zurich)
Detailseite zuletzt geändert am 2024-02-26T17:15:06+01:00 (Zurich)
ISBN/EAN: 9780471987321
ISBN - alternative Schreibweisen:
0-471-98732-8, 978-0-471-98732-1
Alternative Schreibweisen und verwandte Suchbegriffe:
Autor des Buches: andrews, demidov, stephen graham
Titel des Buches: energy transfer, resonance, zero energy, résonance
Daten vom Verlag:
Autor/in: David L. Andrews; Andrey A. Demidov
Titel: Resonance Energy Transfer
Verlag: John Wiley & Sons
468 Seiten
Erscheinungsjahr: 1999-03-23
Gewicht: 0,800 kg
Sprache: Englisch
470,00 € (DE)
Not available (reason unspecified)
157mm x 235mm x 32mm
BB; GB; Hardcover, Softcover / Chemie/Physikalische Chemie; Physikalische Chemie; Energieübertragung; Molekulardynamik; Energieübertragung; Molekulardynamik
1. Resonance energy transfer in proteins; introduction; some basic considerations; a short history of FRET determinations; the components of the Foorster equation; quantum yield; determining spectral overlap; steady state or time-resolved measurements?; resonance energy transfer using intrinsic amino acids; homotransfer between intrinsic probes; heterotransfer; the range of distances determined by resonance energy transfer; precise location of resonance energy transfer probes; properties of probes; labeling specific residues in proteins; resonance energy transfer experiments using lanthanide ions; measurements in radially symmetrical systems; comparison with crystallographic distances; using resonance energy transfer to constrain molecular models; resonance energy transfer with single fluorophores: new wave experiments; intramolecular energy transfer in proteins bound to membranes; green fluorescent protein; resonance energy transfer and biosensors: a new and promising technique; shortcomings; the future of FRET; summary; dedication; acknowledgements; references. 2. Unified theory and radiative and raditionless energy transfer; introduction; background; the basis of the unified theory; spectral features; refraction and dissipation; dynamics of energy transfer between a pair of molecules in a dielectric medium; conclusion; appendix A: Heitler-MA method for analysis of the transition operator; Appendix B: modified approach to the transition operator; references. 3. Dynamics of radiative transport; introduction; overview of atomic and molecular radiative transport; the Holstein-Biberman equation; multiple scattering representation; stochastic approach; combined radiative and nonradiative transport; conclusion; appendix A: probablitity of emission of a photon between t + dt for an nth generation molecule; appendix B: depolarization factor for radiative transferaccording to classical electrodynamics; references. 4. Orientational aspects in pair energy transfer; introduction; Kappa-squared and probability, Kappa-squared and anisotropy; notes on the effects of order and motion; acknowledgements; references. 5. Polarization in molecular complexes with incoherent energy transfer; introduction; interaction of light with single molecules or chromophores; bichromophore molecular complexes; trichromophore complexes; multichromophore complexes with C3 symmetry; conclusion; appendix A; appendix B; appendix C; appendix D; references. 6. Theory of coupling in multichromophoric systems; introduction; reactant and product states: LMO model; the origin of coupling matrix elements; paradigmatic results; coulombic coupling; superexchange; interpretation of steady state spectra; calculation of couplings; acknowledgements; references. 7. Exciton annihilation in molecular aggregates; introduction; theory; applications; discussion; acknowledgements; references. 8. Energy transfer and localization: applications to photosynthetic systems; introduction; optical properties of dimers and aggregates; energy and localization in antenna complexes and reaction centers; acknowledgements; references. 9.Excitation energy transfer in photosynthesis; introduction; the structure of light-harvesting complexes; the mechanism of energy transfer and trapping in photosynthesis; dynamics of excitation energy transfer; conclusions; acknowledgements; references. 10. The Fenna-Matthews-Olson protein: a strongly coupled photosynthetic antenna; introduction; steady state spectroscopy; FMO exciton simulations; FMO primary processes; epilog and future prospects; acknowledgements; references. 11. Use of a Monte carlo method in the problem of energy migration in molecular complexes; introduction; an illustration of Monte Carlo calculations in the problem of fluorescence decay; energy transfer in CME: major algorithm; applications of monte Carlo simulations; conclusion; acknowledgements; references. Index< zum Archiv...