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Resonance energy transfer theory

Van der Meer BW, Coker G III, Chen SYS (1994) Resonance energy transfer theory and... [Pg.450]

Van der Meer B. W., Coker G. Ill and Chen S.-Y. S. Chen (1994) Resonance Energy Transfer. Theory and Data, VCH, New York. [Pg.272]

BW Van der Meer, G Coker, S-YS Chen, eds. Resonance Energy Transfer Theory and Data. New York VCH, 1994. [Pg.84]

Rolinski OJ, Birch DJS. Determination of acceptor distribution from fluorescence resonance energy transfer theory and simulation. J. Chem. Phys. 2000 112 8923-8933. [Pg.524]

An interesting experiment to check the above predictions as to the part of the intermolecular potential that is dominant in controlling process (18) would be a measurement of the temperature dependence of V-V rates in the system. Near-resonant energy-transfer theory predicts a T behavior, while SSH theory predicts a behavior. [Pg.198]

Juzeliunas G and Andrews D L 1999 Unified theory of radiative and radiationless energy transfer Resonance Energy Transfer ed D L Andrews and A A Demidov (New York Wiley) pp 65-107... [Pg.3030]

Baer, R. and Rabani, E. (2008). Theory of resonance energy transfer involving nanocrystals The role of high multipoles. J. Chem. Phys. 128, 184710. [Pg.525]

A detailed theory of energy transfer by the Coulombic mechanism was developed by Forster, so the process is often referred to as Forster resonance energy transfer (FRET). According to the Forster theory, the probability of Coulombic energy transfer falls off inversely with the sixth power of the distance between the donor and the acceptor. For... [Pg.99]

F. Perrin Discussion on Jean Perriris diagram for the explanation of the delayed fluorescence by the intermediate passage through a metastable state First qualitative theory of fluorescence depolarization by resonance energy transfer... [Pg.9]

A notable exception are chemisorbed complexes in zeolites, which have been characterized both structurally and spectroscopically, and for which the interpretation of electronic spectra has met with a considerable success. The reason for the former is the well-defined, although complex, structure of the zeolite framework in which the cations are distributed among a few types of available sites the fortunate circumstance of the latter is that the interaction between the cations, which act as selective chemisorption centers, and the zeolite framework is primarily only electrostatic. The theory that applies for this case is the ligand field theory of the ion-molecule complexes usually placed in trigonal fields of the zeolite cation sites (29). Quantum mechanical exchange interactions with the zeolite framework are justifiably neglected except for very small effects in resonance energy transfer (J30). ... [Pg.152]

Chirio-Lebrun MC, Prats M. Fluorescence resonance energy transfer (FRET) theory and experiments. Biochemical Education 1998, 26, 320-323. [Pg.311]

The elucidation of the structure, dynamics and self assembly of biopolymers has been the subject of many experimental, theoretical and computational studies over the last several decades. [1, 2] More recently, powerful singlemolecule (SM) techniques have emerged which make it possible to explore those questions with an unprecedented level of detail. [3-55] SM fluorescence resonance energy transfer (FRET), [56-60] in particular, has been established as a unique probe of conformational structure and dynamics. [26-55] In those SM-FRET experiments, one measures the efficiency of energy transfer between a donor dye molecule and an acceptor dye molecule, which label specific sites of a macromolecule. The rate constant for FRET from donor to acceptor is assumed to be given by the Forster theory, namely [59,61-64]... [Pg.73]

Forster s theory [1], has enabled the efficiency of EET to be predicted and analyzed. The significance of Forster s formulation is evinced by the numerous and diverse areas of study that have been impacted by his paper. This predictive theory was turned on its head by Stryer and Haugland [17], who showed that distances in the range of 2-50 nm between molecular tags in a protein could be measured by a spectroscopic ruler known as fluorescence resonance energy transfer (FRET). Similar kinds of experiments have been employed to analyze the structure and dynamics of interfaces in blends of polymers. [Pg.471]

We are starting with the simplest though matrix integral theory. It is outlined by the example of the quasi-resonant energy transfer, which is first considered in an immobile pair and only then in the course of encounter diffusion. [Pg.151]

Widengren J, Schweinberger E, Berger S, Seidel CAM. Two new concepts to measure fluorescence resonance energy transfer via fluorescence correlation spectroscopy theory and experimental realizations. J. Phys. Chem. 2001 105 6851-6866. 106. [Pg.523]

Strome and Klier 107,108) applied the Forster-Dexter theory of resonance energy transfer to explain these experimental observations, i,e., the energy transfer from the excited state of the Cu species to the coexistent... [Pg.156]

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See also in sourсe #XX -- [ Pg.10 , Pg.14 , Pg.18 , Pg.306 , Pg.307 , Pg.308 , Pg.309 , Pg.310 , Pg.311 , Pg.312 ]



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