Excited State Molecular Parameters Determined by Spectral Means

Dorohoi, Dana Ortansa

doi:10.15407/ujpe63.8.701

Cited by 15 publications

(10 citation statements)

References 20 publications

(49 reference statements)

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“…This study was conducted in order to use the values of the correlation coefficients C 1 and C 2 for estimating the excited state electric dipole moment of the studied ylids and for approximating the angle between the dipole moments in the electronic states responsible for the absorption process of the visible photons. The procedure described in [30,33] was applied for these calculations.…”

Section: Spectral Resultsmentioning

confidence: 99%

“…The results obtained for estimating the excited dipole moment of the studied ylids for the visible absorption transitions using relations ( 7) and ( 8), the molecular parameters from Tables 2-5 and the procedure described in [30,33], are given in Table 10. The values of the excited state dipole moments were obtained, hypothesizing that the excited state polarizability must be a positive parameter as it results from its definition for the case of PTPY and TTPY and in the hypothesis of McRae [31] and Kawski [34] (in the time of electronic transition the molecular polarizability is the same in the electronic state participating to the absorption transition) for ylids PTNPY and TTNPY.…”

Section: Spectral Resultsmentioning

confidence: 99%

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Some Aryl-1,2,4-triazol-1-ium Phenacylids in Binary Hydroxyl Solvent Mixtures. Computational and Spectral Study

et al. 2021

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Four carbanion monosubstituted p-aryl-1,2,4-triazol-1-ium methylids are subjected to a comparative study between their spectral and quantum-mechanical parameters in order to obtain more information about their structural features in hydroxyl solvents as water and ethanol and also on the nature of electronic absorption transitions from the visible range. The quantum mechanical analysis, made by the Spartan’14 program, established a series of molecular parameters of the studied ylids important for their reactivity and for intermolecular interactions with hydroxyl liquids. An extensive solvatochromic study of 1,2,4-triazol-1-ium ylids is impossible due to their limited solubility in liquids. Binary solvent mixtures of water and ethanol with known solvent parameters from the literature were used for this study. The electronic absorption spectra in binary solvents water and ethanol were used to establish the influence of intermolecular interactions on the spectral characteristics of the studied methylids and also on the composition of their first solvation shell in ternary solutions. The difference between the interaction energies in molecular pairs ylid–water and ylid–ethanol was determined based on the statistical cell model applied to the ternary solutions of the type of ylid + water + ethanol. The obtained values are very small due to the hydroxylic nature of the two solvents.

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Section: Spectral Resultsmentioning

confidence: 99%

Section: Spectral Resultsmentioning

confidence: 99%

Some Aryl-1,2,4-triazol-1-ium Phenacylids in Binary Hydroxyl Solvent Mixtures. Computational and Spectral Study

et al. 2021

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“…The experimental values of the wavenumbers in the maximum of the UV band of fluorescein in different solvents are listed in Tables 5. The total shift of the electronic bands can be described by the following relation [50][51][52][53]: (1) where ν o (cm -1 ) has the significance of the wavenumber in the maximum of absorption electronic band for gaseous phase of the spectrally active substance and C 1 -C 4 are the regression coefficients obtained by multilinear regression analysis. The terms C 1 f(ε) and C 2 f(n) give the contribution of the universal interactions by orientation-induction and polarization-dispersion processes, respectively, while the terms C 3 β and C 4 α give the contribution of the specific interactions to the total spectral shift.…”

Section: Resultsmentioning

confidence: 99%

Variational Method for Estimating the Dipole Moment in the Second Excited State of Fluorescein Molecule from its Electronic UV Absorption Spectra

Luca¹,

Morosanu²,

Macovei³

et al. 2019

Rev. Chim.

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Electro-optical parameters of fluorescein molecule in the second excited electronic state and information on the interactions with solvents were obtained from a solvatochromic study. Parameters of the solvents such as the refractive index, electrical permittivity and Kamlet-Taft parameters (hydrogen bond acidity and basicity) were related with the experimentally recorded shifts of UV absorption spectral band of fluorescein dissolved in several solvents. Through a variational method, the electric dipole moment and polarizability in excited state of fluorescein molecule were estimated. The calculus requires some parameters of the fluorescein molecule in the ground electronic state, which were determined through a quantum-mechanical study.

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“…The statistical analysis of the solvatochromic data can also be used in order to determine the excited state dipole moment pe and the angle φ between the dipole moments pg and pe in the two electronic states participating to the π-π‫٭‬ transition, by a variational method [27,28].…”

Section: C) Variational Methodsmentioning

confidence: 99%

“…From the multitude of the obtained results, one chooses the value at which the electric polarizability becomes equal (or approximate equal) with the ground state electric polarizability [27,28]. At φ=71.50 0 the polarizability from the excited state equalizes the ground state polarizability of CTC.…”

Section: C) Variational Methodsmentioning

confidence: 99%

New QSAR and Solvatochromic Estimation of Molecular Parameters of Chlortetracycline

Gritco-Todirascu¹,

Creangă²,

Ivan³

et al. 2020

Rev. Chim.

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The present paper is focused on determination of the main parameters of Chlortetracycline. Chlortetracycline belongs to one of the most used family of antibiotics worldwide, Tetracyclines. Because of the large spectrum of infections which can be treated with this category of antibiotics there are attempts to find new derivatives from this class. The compounds derived from the same basic structure exhibit same chemical properties, that is why knowing in detail the main physico-chemical properties of Chlortetracycline could be a real help in synthesize new efficient derivatives. In order to evaluate the reactivity and biological activity HyperChem was used to establish the optimized structure, the electro-optical, the energetic and QSAR parameters. The solvatochromic methods allowed determining the intermolecular interactions types and their contribution to the spectral shifts of measured electronic absorption bands. Based on computational and solvatochromic results, the excited state dipole moment of Chlortetracycline was established by variation method.

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Excited State Molecular Parameters Determined by Spectral Means

Cited by 15 publications

References 20 publications

Some Aryl-1,2,4-triazol-1-ium Phenacylids in Binary Hydroxyl Solvent Mixtures. Computational and Spectral Study

Some Aryl-1,2,4-triazol-1-ium Phenacylids in Binary Hydroxyl Solvent Mixtures. Computational and Spectral Study

Variational Method for Estimating the Dipole Moment in the Second Excited State of Fluorescein Molecule from its Electronic UV Absorption Spectra

New QSAR and Solvatochromic Estimation of Molecular Parameters of Chlortetracycline

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