Joyce R. Powell scite author profile

Two previously developed spectrofluorometric probe methods are critically examined regarding their ability to model preferential solvation around probe molecules dissolved in binary solvents. The first method assumes that each fluorophore is solvated by only one type of solvent molecule and that the observed spectral wavelength shift results from additivity of emission spectrum for the two solvational fluorophore species. The second method treats the solvational sphere as a binary solvent microphase, with the fluorophore's energy in both the ground and excited states mathematically expressed in terms of the "nearly ideal binary solvent" (NIBS) model.Expressions derived from each model are illustrated using observed fluorescence emission behavior of 9,9'-bianthracene and 9,9'-bianthracene-lO-carboxaldehyde dissolved in binary toluene + acetonitrile and dibutyl ether + acetonitrile mixtures, which were measured as part of the present study. Also discussed is the compatibility of the inherent assumptions upon which the various spectrofluorometric probe methods are based, versus the thermodynamic principles that govern the conformational equilibria responsible for the observed solvatochromic behavior.

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Solubility of Anthracene in Binary Alcohol + 2-Methoxyethyl Ether Solvent Mixtures

Powell

Coym

Acree

1997

J. Chem. Eng. Data

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Experimental solubilities are reported for anthracene dissolved in seven binary mixtures containing 2-methoxyethyl ether with 1-propanol, 2-propanol, 1-butanol, 2-butanol, 2-methyl-1-pentanol, 4-methyl-2-pentanol, and 1-octanol at 25°C. Results of these measurements are used to test two mathematical representations based upon the combined nearly ideal binary solvent (NIBS)/Redlich-Kister equation and modified Wilson model. For the seven systems studied, both equations were found to provide an accurate mathematical representation of the experimental data, with an overall average absolute deviation between measured and calculated values being 1.1% and 0.8% for the combined NIBS/Redlich-Kister and modified Wilson equations, respectively.

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Solubility of pyrene in binary (alkane + 2-butanol) solvent mixtures

Hernández

Coym

Roy

et al. 1998

The Journal of Chemical Thermodynamics

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Enthalpies of combustion of the pyridine N-oxide derivatives: 4-methyl-, 3-cyano-, 4-cyano-, 3-hydroxy-, 2-carboxy-, 4-carboxy-, and 3-methyl-4-nitro, and of the pyridine derivatives: 2-carboxy-, and 4-carboxy-. The dissociation enthalpies of the N-O bonds

Silva

Agostinha

Matos

et al. 1998

The Journal of Chemical Thermodynamics

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Prediction of anthracene solubility in alcohol + alkane solvent mixtures using binary alcohol + alkane VLE data. Comparison of Kretschmer-Wiebe and mobile order models

Powell

McHale

Kauppila

et al. 1997

Fluid Phase Equilibria

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Joyce R. Powell

Spectrochemical Investigations of Preferential Solvation. 2. Compatibility of Thermodynamic Models versus Spectrofluorometric Probe Methods for Tautomeric Solutes Dissolved in Binary Mixtures

Solubility of Anthracene in Binary Alcohol + 2-Methoxyethyl Ether Solvent Mixtures

Solubility of pyrene in binary (alkane + 2-butanol) solvent mixtures

Enthalpies of combustion of the pyridine N-oxide derivatives: 4-methyl-, 3-cyano-, 4-cyano-, 3-hydroxy-, 2-carboxy-, 4-carboxy-, and 3-methyl-4-nitro, and of the pyridine derivatives: 2-carboxy-, and 4-carboxy-. The dissociation enthalpies of the N-O bonds

Prediction of anthracene solubility in alcohol + alkane solvent mixtures using binary alcohol + alkane VLE data. Comparison of Kretschmer-Wiebe and mobile order models

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