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Energy radiationless

Radiationless process conversion of one electronic state to another without absorption or emission of radiation. The energy transferred is usually in the form of heat energy — mainly vibrational energy. Radiationless processes can be further divided into internal conversion processes where the multiplicity of the state does not change [(II), (VI)] and inter system crossing processes where the multiplicity of the state does change [(IV), (VII)]. [Pg.131]

Once the excited molecule reaches the S state it can decay by emitting fluorescence or it can undergo a fiirtlier radiationless transition to a triplet state. A radiationless transition between states of different multiplicity is called intersystem crossing. This is a spin-forbidden process. It is not as fast as internal conversion and often has a rate comparable to the radiative rate, so some S molecules fluoresce and otliers produce triplet states. There may also be fiirther internal conversion from to the ground state, though it is not easy to detemiine the extent to which that occurs. Photochemical reactions or energy transfer may also occur from S. ... [Pg.1143]

More recently Andrews and Juzeliunas [6, 7] developed a unified tlieory that embraces botli radiationless (Forster) and long-range radiative energy transfer. In otlier words tliis tlieory is valid over tire whole span of distances ranging from tliose which characterize molecular stmcture (nanometres) up to cosmic distances. It also addresses tire intennediate range where neitlier tire radiative nor tire Forster mechanism is fully valid. Below is tlieir expression for tire rate of pairwise energy transfer w from donor to acceptor, applicable to transfer in systems where tire donor and acceptor are embedded in a transparent medium of refractive index ... [Pg.3018]

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]

Soholes G D, Clayton AHA and Ghiggino K P 1992 On the rate of radiationless intermoleoular energy transfer J. Chem. Phys. 97 7405-13... [Pg.3030]

A form of radiationless relaxation in which an analyte moves from a higher vibrational energy level to a lower vibrational energy level in the same electronic level. [Pg.424]

Another form of radiationless relaxation is internal conversion, in which a molecule in the ground vibrational level of an excited electronic state passes directly into a high vibrational energy level of a lower energy electronic state of the same spin state. By a combination of internal conversions and vibrational relaxations, a molecule in an excited electronic state may return to the ground electronic state without emitting a photon. A related form of radiationless relaxation is external conversion in which excess energy is transferred to the solvent or another component in the sample matrix. [Pg.425]

Fig. 11. (a) Diagram of energy levels for a polyatomic molecule. Optical transition occurs from the ground state Ag to the excited electronic state Ai. Aj, are the vibrational sublevels of the optically forbidden electronic state A2. Arrows indicate vibrational relaxation (VR) in the states Ai and Aj, and radiationless transition (RLT). (b) Crossing of the terms Ai and Aj. Reorganization energy E, is indicated. [Pg.27]

A may also return to the ground state via a radiationless transition, most commonly by collisional transfer of energy to a solvent molecule. [Pg.180]

The photochemical behavior of butadienes has been closely studied. When these compounds are exposed to light, they move from the ground state to an excited state. This excited state eventually returns to one of the ground state conformations via a process that includes a radiationless decay (i.e., without emitting a photon) from the excited state potential energy surface back to the ground state potential energy surface. [Pg.232]

C. Resonance energy transfer. The excitation energy can be transferred by resonance energy transfer, a radiationless process, to a neighboring molecule if their energy level difference corresponds to the quantum of excitation energy. In this process, the quantum, or so-called exciton, is transferred. [Pg.714]

Demmig, B. Winter, K. (1988reduction state of Q and radiationless energy dissipation in intact leaves. In Ecology of Photosynthesis in Sun and Shade, ed. J.R. Evans, S. von Caemmerer and W.W. Adams III, pp. 151-62. Melbourne CSIRO. [Pg.64]

See other pages where Energy radiationless is mentioned: [Pg.404]    [Pg.87]    [Pg.629]    [Pg.4]    [Pg.1191]    [Pg.32]    [Pg.404]    [Pg.87]    [Pg.629]    [Pg.4]    [Pg.1191]    [Pg.32]    [Pg.245]    [Pg.907]    [Pg.1049]    [Pg.1143]    [Pg.1552]    [Pg.2953]    [Pg.3018]    [Pg.385]    [Pg.56]    [Pg.169]    [Pg.424]    [Pg.424]    [Pg.425]    [Pg.772]    [Pg.773]    [Pg.780]    [Pg.1]    [Pg.285]    [Pg.103]    [Pg.311]    [Pg.37]    [Pg.232]    [Pg.141]    [Pg.151]    [Pg.284]    [Pg.182]    [Pg.182]    [Pg.183]    [Pg.161]    [Pg.185]   
See also in sourсe #XX -- [ Pg.154 ]



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