Contenu d'un ouvrage

Titre de l'ouvrage : Molecular Fluorescence : principles and applications (M.N. Berberan-Santos, B. Valeur, 2012)

Num. Chap.	Titre du chapitre	Page
1	Introduction	1
2	Absorption of Ultraviolet, Visible, and Near-Infrared Radiation	33
3	Characteristics of Fluorescence Emission	53
4	Structural Effects on Fluorescence Emission	75
5	Environmental Effects on Fluorescence Emission	109
6	Effects of Intermolecular Photophysical Processes on Fluorescence Emission	141
7	Fluorescence Polarization: Emission Anisotropy	181
8	Excitation Energy Transfer	213
9	Steady-State Spectrofl uorometry	265
10	Time-Resolved Fluorescence Techniques	285
11	Fluorescence Microscopy	327
12	Fluorescence Correlation Spectroscopy and Single-Molecule Fluorescence Spectroscopy	349
13	Evaluation of Local Physical Parameters by Means of Fluorescent Probes	379
14	Chemical Sensing via Fluorescence	409
15	Autofluorescence and Fluorescence Labeling in Biology and Medicine	479
16	Miscellaneous Applications	507

Chapitre 8 : Excitation Energy Transfer	Page
Distinction between Radiative and Nonradiative Transfer	218
Radiative Energy Transfer	219
Nonradiative Energy Transfer	221
Determination of Distances at a Supramolecular Level Using FRET	235
FRET in Ensembles of Donors and Acceptors	243
FRET between Like Molecules: Excitation Energy Migration in Assemblies of Chromophores	250
Overview of Qualitative and Quantitative Applications of FRET	252