Asma M. AL Gebali scite author profile

Asma M. AL Gebali

2Publications

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49Citation Statements Given

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University of Benghazi

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The Electrostatic and Non-Electrostatic Interaction Affect on Acidity Constants of Bromocresol Purple in Aqueous Ethanolic Media

2023

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This work aimed to the study effect of ethanol ratios on the acidity constants of bromocresol purple. The acidity constants of BCP were determined in binary mixtures of water with ethanol containing 0, 30, 40, 50, 60, and 70% (v/v) using spectrophotometric methods. The results indicate the dependence of acidity constants on the ratio of ethanol. The values of logKa 1 and logKa 2 were correlated with the macroscopic (relative permittivity, ε) and microscopic Kamlet-Taft parameters (α, β, and π*) of binary mixtures. The in uence of solvent on the acidity constants was analyzed in terms of the KAT parameters in order to study the solvent-solute interaction. Multiple linear regression was used to nd the contribution of the microscopic parameters containing α (acidity), π* (dipolarity/polarizability), and β (basicity). It was found that α and β were the most predominant descriptors. Also, a relationship with reciprocal relative permittivity was obtained based on Born's model, showing the signi cance of speci c solute-solvent interactions. Therefore, the hydrogen bonding interactions between solute and solvent components are mainly responsible for the change in acidity constants of bromocresol purple of binary mixtures.

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The Electrostatic and Non-Electrostatic Interaction Affect on Acidity Constants of Bromocresol Purple in Aqueous Ethanolic Media

Hemdan

Gebali

Ali

2022

Preprint

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This work aimed to the study effect of ethanol ratios on the acidity constants of bromocresol purple. The acidity constants of BCP were determined in binary mixtures of water with ethanol containing 0, 30, 40, 50, 60, and 70% (v/v) using spectrophotometric methods. The results indicate the dependence of acidity constants on the ratio of ethanol. The values of logKa1 and logKa2 were correlated with the macroscopic (relative permittivity, ε) and microscopic Kamlet-Taft parameters (α, β, and π*) of binary mixtures. The influence of solvent on the acidity constants was analyzed in terms of the KAT parameters in order to study the solvent-solute interaction. Multiple linear regression was used to find the contribution of the microscopic parameters containing α (acidity), π* (dipolarity/polarizability), and β (basicity). It was found that α and β were the most predominant descriptors. Also, a relationship with reciprocal relative permittivity was obtained based on Born’s model, showing the significance of specific solute-solvent interactions. Therefore, the hydrogen bonding interactions between solute and solvent components are mainly responsible for the change in acidity constants of bromocresol purple of binary mixtures.

show abstract

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Asma M. AL Gebali

The Electrostatic and Non-Electrostatic Interaction Affect on Acidity Constants of Bromocresol Purple in Aqueous Ethanolic Media

The Electrostatic and Non-Electrostatic Interaction Affect on Acidity Constants of Bromocresol Purple in Aqueous Ethanolic Media

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