Simulations of vibronic profiles in two-photon absorption

Macák, Peter; Luo, Yi; Ågren, Hans

doi:10.1016/s0009-2614(00)01096-4

Cited by 185 publications

(188 citation statements)

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“…Among other properties, large two-photon absorption (TPA) cross-sections are promising for different applications, ranging from optical storage to biological optical imaging 1 . As a consequence, both experimental and theoretical work [2][3][4][5][6][7] have received strong impetus and several interesting strategies have been proposed to improve NLO responses in general 8,9 and TPA cross-section in particular 1,10 . A presently highly debated topic concerns the importance of vibrational contributions to NLO responses of organic materials [11][12][13][14] .…”

Section: Introductionmentioning

confidence: 99%

Vibronic contributions to resonant NLO responses: two-photon absorption in push–pull chromophores

Painelli

Freo

Terenziani

2001

Chemical Physics Letters

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Section: Introductionmentioning

confidence: 99%

Vibronic contributions to resonant NLO responses: two-photon absorption in push–pull chromophores

Painelli

Freo

Terenziani

2001

Chemical Physics Letters

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“…This is not the first time that the vibrational effects in TPA have been investigated, but all previous attempts have been much less complete. In nearly all cases attention has zeroed in on the ͕␣ 2 ͖ TP term where vibrational averaging has been done exactly by Sundholm et al 27 or approximately by Å gren and co-workers [24][25][26] ͑either just the first or the first two terms in the expansion of Eq. ͑17͒ have been included͒.…”

Section: Resultsmentioning

confidence: 99%

“…The first theoretical treatment of vibronic coupling, based on the linear Herzberg-Teller term, was carried out by Honig and co-workers 21,22 for benzene. Ab initio calculations were later carried out by Luo and co-workers, 23,24 and the theory was extended to include the Franck-Condon distribution by Macak et al 25,26 Other related studies are by Sundholm et al, 27 where vibrationally averaged transition moments were employed for CO, and by Painelli et al 28 who used an approximate two-state model to account for electronic-vibrational coupling in push-pull chromophores. Here we present a more complete and more general approach to the vibrational problem.…”

Section: Introductionmentioning

confidence: 99%

Vibration and two-photon absorption

Bishop

Luis

Kirtman

2002

The Journal of Chemical Physics

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A treatment of nuclear vibrational motions in two-photon absorption is laid out in detail. Perturbation theory is used to develop working formulas for diatomic molecules and tested for the X 1 ⌺ ϩ -A 1 ⌸ transition of carbon monoxide. The results are compared with the exact numerical values. Certain vibrational contributions, not previously recognized, are found to make an important contribution to the two-photon absorption probability.

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“…36 The TD DFT QR calculations of the S-T transition moments in all porphyrins and their vibrational mode dependence are performed with the splitted 3-21G basis set; 37 for QR calculations of PtP we have used for platinum atom the so-called welltempered basis set ͑WTBS͒ of Huzinaga and Klobukowski. 39 The Franck-Condon ͑FC͒ factors are calculated through the excited state gradients in the B3LLYP/Lanl2DZ approach with the code developed by Macak et al 39 SOC integral calculations are performed with two approximations: scaled atomic charges proposed by Koseki et al 40 and with atomic mean field SOC two-electron integrals ͑AMFI͒. 41 Massweighted displacements along the active normal modes of e g symmetry are used for vibronic calculations.…”

Section: ͑8͒mentioning

confidence: 99%

Theoretical study of phosphorescence in dye doped light emitting diodes

Minaev

Jansson

Ågren

et al. 2006

The Journal of Chemical Physics

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Phosphorescence of platinum͑II͒ octaethyl porphyrin ͑PtOEP͒, which has been used in organic light emitting diodes to overcome the efficiency limit imposed by the formation of triplet excitons, is studied by time-dependent ͑TD͒ density functional theory ͑DFT͒. The spin-orbit coupling ͑SOC͒ effects and the phosphorescence radiative lifetime ͑ p r ͒, calculated by the TD DFT method with the quadratic response technique, are analyzed for a series of porphyrins in order to elucidate the internal heavy atom effect on p r . While the significance of the d orbital admixture into the lowest unoccupied molecular orbital e g ͑ * ͒, proposed by Gouterman et al. ͓J. Chem. Phys. 56, 4073 ͑1972͔͒, is supported by our SOC calculations, we find that the charge-transfer ͑CT͒ mechanism is more important; the CT state of the 3 A 2g symmetry provides effective SOC mixing with the ground state, and a large 3 A 2g -3 E u transition dipole moment gives the main contribution to the radiative phosphorescence rate constant. The IR and Raman spectra in the ground state and first excited triplet state ͑T 1 ͒ are studied for proper assignment of vibronic patterns. An orbital angular momentum of the T 1 state is not quenched completely by the Jahn-Teller effect. A large zero-field splitting is predicted for PtP and PtOEP which results from a competition between the SOC and Jahn-Teller effects. A strong vibronic activity is found for the e g mode at 230 cm −1 in PtP phosphorescence which is shifted to 260 cm −1 in PtOEP. This out-of-plane vibration of the Pt atom produces considerable change of the SOC mixing. The role of charge-transfer state of d * type is stressed for the explanation of the electroluminescent properties of the dye doped light emitting diode.

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Simulations of vibronic profiles in two-photon absorption

Cited by 185 publications

References 19 publications

Vibronic contributions to resonant NLO responses: two-photon absorption in push–pull chromophores

Vibronic contributions to resonant NLO responses: two-photon absorption in push–pull chromophores

Vibration and two-photon absorption

Theoretical study of phosphorescence in dye doped light emitting diodes

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