Solubility and Preferential Solvation of Sulfanilamide, Sulfamethizole and Sulfapyridine in Methanol + Water Mixtures at 298.15 K

The equilibrium solubilities of sulfanilamide, sulfamethizole and sulfapyridine in methanol + water mixtures at 298.15 K were determined and the preferential solvation parameters were derived from their thermodynamic solution properties by means of the inverse Kirkwood–Buff integrals. In all cases t...

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Veröffentlicht in:	Journal of solution chemistry 2016-10, Vol.45 (10), p.1479-1503
Hauptverfasser:	Cárdenas, Zaira J., Jiménez, Daniel M., Almanza, Ovidio A., Jouyban, Abolghasem, Martínez, Fleming, Acree, William E.
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Sprache:	eng
Schlagworte:	Aromatic compounds Chemistry Chemistry and Materials Science Composition Condensed Matter Physics Drugs Geochemistry Industrial Chemistry/Chemical Engineering Inorganic Chemistry Methanol Mixtures Oceanography Parameters Physical Chemistry Solubility Solvation
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container_title	Journal of solution chemistry
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creator	Cárdenas, Zaira J. Jiménez, Daniel M. Almanza, Ovidio A. Jouyban, Abolghasem Martínez, Fleming Acree, William E.
description	The equilibrium solubilities of sulfanilamide, sulfamethizole and sulfapyridine in methanol + water mixtures at 298.15 K were determined and the preferential solvation parameters were derived from their thermodynamic solution properties by means of the inverse Kirkwood–Buff integrals. In all cases the drug solubility was the lowest in neat water and highest in neat methanol. The preferential solvation parameters for methanol ( δx 1,3 ) are negative in water-rich mixtures but positive in compositions from 0.32 in mole fraction of methanol to pure methanol. Based on these results it is conjecturable that in the former case hydrophobic hydration around the aromatic rings plays the main role in the drug’s solvation. The higher solvation by methanol in mixtures of similar cosolvent compositions and in methanol-rich mixtures can be explained in terms of the higher basic behavior of this co-solvent interacting with the Lewis acidic groups of the drugs. Besides, the drugs’ solubilities were mathematically represented by using the Jouyban–Acree model obtaining average percentage deviations lower than 2.6 % for correlative studies.
doi_str_mv	10.1007/s10953-016-0513-7
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In all cases the drug solubility was the lowest in neat water and highest in neat methanol. The preferential solvation parameters for methanol ( δx 1,3 ) are negative in water-rich mixtures but positive in compositions from 0.32 in mole fraction of methanol to pure methanol. Based on these results it is conjecturable that in the former case hydrophobic hydration around the aromatic rings plays the main role in the drug’s solvation. The higher solvation by methanol in mixtures of similar cosolvent compositions and in methanol-rich mixtures can be explained in terms of the higher basic behavior of this co-solvent interacting with the Lewis acidic groups of the drugs. 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In all cases the drug solubility was the lowest in neat water and highest in neat methanol. The preferential solvation parameters for methanol ( δx 1,3 ) are negative in water-rich mixtures but positive in compositions from 0.32 in mole fraction of methanol to pure methanol. Based on these results it is conjecturable that in the former case hydrophobic hydration around the aromatic rings plays the main role in the drug’s solvation. The higher solvation by methanol in mixtures of similar cosolvent compositions and in methanol-rich mixtures can be explained in terms of the higher basic behavior of this co-solvent interacting with the Lewis acidic groups of the drugs. 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subjects	Aromatic compounds Chemistry Chemistry and Materials Science Composition Condensed Matter Physics Drugs Geochemistry Industrial Chemistry/Chemical Engineering Inorganic Chemistry Methanol Mixtures Oceanography Parameters Physical Chemistry Solubility Solvation
title	Solubility and Preferential Solvation of Sulfanilamide, Sulfamethizole and Sulfapyridine in Methanol + Water Mixtures at 298.15 K
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