2004
DOI: 10.1021/jp049648e
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Absorption and Fluorescence of 3-Methylindole:  A Theoretical Study, Including H2O Interactions

Abstract: The paper presents a computational study of the ground and excited states of 3-methylindole. The ground-state geometry is optimized using the DFT B3LYP potential in conjunction with a 6-31+G(d) basis set. In addition the ground and first and second excited singlet states are optimized, for the first time, using the CASSCF method with an ANO−S basis set. The results are compared with experiment and with the experimental and theoretical literature data for the parent indole. The calculated excitations are in agr… Show more

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Cited by 19 publications
(23 citation statements)
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“…This combined strategy, consisting of starting with a DFT-optimized structure and subsequently reoptimizing the crucial structure parameters at the CASPT2 level, has been successfully applied in other studies. [32,36,37] All calculations have been performed within the abelian C 2 point group symmetry. For all atoms, atomic natural orbital basis sets, specifically designed to include relativistic effects, have been used.…”
Section: Methodsmentioning
confidence: 99%
“…This combined strategy, consisting of starting with a DFT-optimized structure and subsequently reoptimizing the crucial structure parameters at the CASPT2 level, has been successfully applied in other studies. [32,36,37] All calculations have been performed within the abelian C 2 point group symmetry. For all atoms, atomic natural orbital basis sets, specifically designed to include relativistic effects, have been used.…”
Section: Methodsmentioning
confidence: 99%
“…The CASPT2 study on indole by SerranoAndrés and Roos indicated that upon relaxation the 1 L b remains the lowest excited state, and will be the emitting state, as is confirmed by matrix isolation spectroscopy [139]. For 3-methylindole, where the splitting between the states is lower, the CASPT2 results point out that the optimization which starts at the 1 L a Franck-Condon state induces a state crossing between with the 1 L b state [137]. Nonetheless also in this chromophore the lowest excited energy level is the relaxed 1 L b state, and the emission maximum is calculated at 4.02 eV.…”
Section: Qm Calculations Of the Emission Spectramentioning
confidence: 82%
“…These transitions are immediately followed by a Rydberg excitation from the HOMO to MO33. In Table 4 we present calculated and experimental transition energies both for indole [135] and its homologue 3-methylindole [137]. In the latter model system the excitations are slightly red-shifted and the separation between the radiative states is lower than in indole, making it an even better model of the actual tryptophan chromophore.…”
Section: Quantum Mechanics (Qm) Calculations Of the Absorption Spectramentioning
confidence: 99%
“…The humidity control was rigorous as the Trp photoluminescence (PL) is quite sensitive to moisture variations. Somers and Ceulemans [47] studied the conformational changes in the Trp molecule when hydrated with water. The Trp degradation kinetics is also altered as a function of the amount of moisture because photolytic processes are usually accelerated in water.…”
Section: Methodsmentioning
confidence: 99%