2003
DOI: 10.1103/physrevb.68.155202
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Frenkel exciton model of optical absorption and photoluminescence inα-PTCDA

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Cited by 76 publications
(77 citation statements)
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References 39 publications
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“…A more detailed investigation on temperature-dependent absorption in PTCDA films 37 as well as a discussion about other absorption models will be given elsewhere. 38,39 For a better comparison, the two PL spectra and the absorption spectrum are slightly offset to each other. No significant changes in the PL spectrum are observed as the excitation energy is changed from 2.84 eV on the highenergy side of the -* absorption to 2.33 eV closer to the narrow 0-0 exciton absorption band.…”
Section: Resultsmentioning
confidence: 99%
“…A more detailed investigation on temperature-dependent absorption in PTCDA films 37 as well as a discussion about other absorption models will be given elsewhere. 38,39 For a better comparison, the two PL spectra and the absorption spectrum are slightly offset to each other. No significant changes in the PL spectrum are observed as the excitation energy is changed from 2.84 eV on the highenergy side of the -* absorption to 2.33 eV closer to the narrow 0-0 exciton absorption band.…”
Section: Resultsmentioning
confidence: 99%
“…[142] is just one example of recent experiments probing quench dynamics similar to that considered here. The models are also important for molecular aggregates [143][144][145] and energy transport in large organic and biomolecules [146][147][148][149][150][151]. Experiments in many of these systems have measured the same or closely related quench dynamics to that considered herein.…”
Section: Physical Realizationsmentioning
confidence: 98%
“…Molecular interactions inside the crystal are often approximated to be (screened) interactions between point-dipoles located at the centre of mass of each molecule and corresponding to the dipole moment of the molecular transition. Such an approximation fails for molecules close to each other compared to their dimensions and it can be improved by using the transition charge distribution method, which consists in www.intechopen.com approximating the delocalized molecular transition dipole with a distribution of point charges located at atomic positions (Alessandrini et al 2011, Markovitsi et al 1995, Scholz et al 2000, Vragovic & Scholz 2003). An even more accurate estimate of the molecular interactions can be obtained by quantum mechanical calculations involving several molecules, but such a refinement would be relevant only for nearest-neighbour or nextnearest-neighbour molecules and, in our test cases, would only slightly correct the absorption spectra.…”
Section: Melt Growthmentioning
confidence: 99%