Predicting Phosphorescence Rates of Light Organic Molecules Using Time-Dependent Density Functional Theory and the Path Integral Approach to Dynamics

Souza, Bernardo de; Farias, Giliandro; Neese, Frank; Izsák, Róbert

doi:10.1021/acs.jctc.8b00841

Cited by 193 publications

(176 citation statements)

References 64 publications

(112 reference statements)

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“…In this way, the spin‐orbit matrix elements and the singlet‐triplet energy gap for a given S i / T j coupling dominate the efficiency of the relative ISC. This approximation has been successfully used in previous DFT studies on a series of photosensitizers candidate to be used in PDT.…”

Section: Resultsmentioning

confidence: 99%

Iodine substituted phosphorus corrole complexes as possible photosensitizers in photodynamic therapy: Insights from theory

et al. 2020

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The search for new dyes to be used as photosensitizers in photodynamic therapy (PDT) is a field of great interest from both experimental and theoretical viewpoints.In this study, the main photophysical properties (excitation energies, singlet-triplet energy gap, and spin orbit coupling matrix elements) of some unsubstituted and iodine substituted phosphorus corrole complexes have been determined by using density functional theory and its time-dependent formulation. Results show that these compounds can be proposed as photosensitizers in PDT. The heavy atom effects have been rationalized on the basis of El-Sayed rules. K E Y W O R D S DFT, heavy atom effect, PDT, phosphorus corrole complexes, TDDFT 1PF2-I4 555 [0.230] 548 [0.238] 589 [0.62] 545 [0.134] 535 [0.114] 544 [0.15] 403 [1.120] 403 [1.048] 423 [2.80] 2PF2-I3 552 [0.274] 540 [0.252] 587 [0.61] 531 [0.072] 521 [0.063] 570 [0.42] 400 [1.446] 399 [1.398] 415 [2.88] 2PF2-I4 558 [0.269] 553 [0.275] 587 [0.61] 541 [0.123] 533 [0.103] 570 [0.42] 402 [1.427] 406 [0.498] 417 [3.06] Note: Experimental values are taken from Ref. [12].

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Section: Resultsmentioning

confidence: 99%

Iodine substituted phosphorus corrole complexes as possible photosensitizers in photodynamic therapy: Insights from theory

et al. 2020

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“…Combining our path‐integral approach with the SOC results, we could simulate the emission spectra for both the fluorescence and phosphorescence (Figure ) within a reasonable TD‐DFT error. The predicted results are in good agreement with the experimental data, thus confirming the coexistence of long‐wavelength phosphorescence with short‐wavelength DF.…”

Section: Methodsmentioning

confidence: 99%

Persistent Solid‐State Phosphorescence and Delayed Fluorescence at Room Temperature by a Twisted Hydrocarbon

et al. 2019

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The dehydrating cyclotrimerization of 1‐tetralone in the presence of titanium tetrachloride at high temperatures leads to homotruxene, a nonplanar arene in which the twist angles between its three outer benzene rings and the central benzene are stabilized by ethylene bridges. This non‐planar configuration allows for pronounced spin–orbit coupling and a high triplet energy, leading to room‐temperature phosphorescence in air with a lifetime of 0.38 s and a quantum yield of 5.6 %, clearly visible to the human eye after switching off the excitation. Triplet–triplet annihilation is found to simultaneously lead to a substantial delayed fluorescence, unprecedented from a pure hydrocarbon at ambient conditions, with a lifetime of 0.11 s.

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“…To identify candidate molecules for synthesis, virtual screenings could be performed for identifying the most promising novel compounds with high quantum yields and other desirable properties such as low emission energy in the infrared part of the spectrum. Recently several programs 3,4 were developed for predicting rates for radiative and non-radiative (internal conversion, IC 5,6 , and intersystem crossing, ISC 7,8 ) decays using Fermi's Golden rule. They are based on the idea that the decay processes are slower than thermalization and that the couplings are small.…”

Section: Introductionmentioning

confidence: 99%

Predicting fluorescence quantum yields for molecules in solution: A critical assessment of the harmonic approximation and the choice of the lineshape function

Humeniuk

Bužančić

Hoche

et al. 2020

The Journal of Chemical Physics

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For the rational design of new fluorophores, reliable predictions of fluorescence quantum yields from first principles would be of great help. However, efficient computational approaches for predicting transition rates usually assume that the vibrational structure is harmonic. While the harmonic approximation has been used successfully to predict vibrationally resolved spectra and radiative rates, its reliability for non-radiative rates is much more questionable. Since non-adiabatic transitions convert large amounts of electronic energy into vibrational energy, the highly excited final vibrational states deviate greatly from harmonic oscillator eigenfunctions. We employ a time-dependent formalism to compute radiative and non-radiative rates for transitions and study the dependence on model parameters. For several coumarin dyes, we compare different adiabatic and vertical harmonic models (AS, ASF, AH, VG, VGF, and VH), in order to dissect the importance of displacements, frequency changes, and Duschinsky rotations. In addition, we analyze the effect of different broadening functions (Gaussian, Lorentzian, or Voigt). Moreover, to assess the qualitative influence of anharmonicity on the internal conversion rate, we develop a simplified anharmonic model. We address the reliability of these models considering the potential errors introduced by the harmonic approximation and the phenomenological width of the broadening function.

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Predicting Phosphorescence Rates of Light Organic Molecules Using Time-Dependent Density Functional Theory and the Path Integral Approach to Dynamics

Cited by 193 publications

References 64 publications

Iodine substituted phosphorus corrole complexes as possible photosensitizers in photodynamic therapy: Insights from theory

Iodine substituted phosphorus corrole complexes as possible photosensitizers in photodynamic therapy: Insights from theory

Persistent Solid‐State Phosphorescence and Delayed Fluorescence at Room Temperature by a Twisted Hydrocarbon

Predicting fluorescence quantum yields for molecules in solution: A critical assessment of the harmonic approximation and the choice of the lineshape function

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