Ion Solvation in Salts of Biologically Important Rare Earth Metals With Aqueous Sugar Alcohol (Sorbitol) Mixed-Solvent Systems

Dash, J. K.; Kamila, Susmita

doi:10.1016/j.jtusci.2016.10.007

Journal of Taibah University for Science

2017

DOI: 10.1016/j.jtusci.2016.10.007

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Ion Solvation in Salts of Biologically Important Rare Earth Metals With Aqueous Sugar Alcohol (Sorbitol) Mixed-Solvent Systems

J. K. Dash

Susmita Kamila²

Abstract: Acoustic investigations have examined the salts of rare earth metals, such as lanthanum(III) chloride, in sorbitol-water mixed solvent systems of different concentrations at 303.15 K temperature and 1 atmospheric pressure. Various parameters have been calculated from the measured values of ultrasonic velocity, density and viscosity data. These parameters help to characterize the ion-solvent interaction and are also supportive of the structure-promoting tendency in the present solute-mixed solvent system. The l… Show more

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2021

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Cited by 1 publication

References 27 publications

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Studies on Apparent Molal Compressibility and Molal Volume of ZnSO4 in Aqueous Saccharides Mixed Solvent Systems: A Comparative Study

Kamila

2021

J. Mex. Chem. Soc.

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Abstract. Different metal ions as well as carbohydrates play vital role in human metabolism. The present investigation emphasizes on zinc sulphate (ZnSO4) in galactose and its comparative study with lactose in aqueous medium at 303.15, 308.15, 313.15K temperature and at 1.0 atmospheric pressure. Different physical quantities such as density, viscosity and speed of sound have been measured as function of concentrations and temperatures for these multi-component solutions. These quantities were further used to evaluate various thermo-acoustic parameters like acoustic impedance, isentropic compressibility, partial molal compressibility, partial molal volume, internal pressure etc,. The results were analyzed to assess the type and extent of association among the components. Moreover, both Zn2+ and SO42- are in the Hofmeister series and there is a possibility of ion-macro molecule interactions in aqueous solution. The breaking of the structure and the solvation of the solute by changing the temperature in mixed solvents are the point of discussion in the present study. Interestingly, the ion-solvation of zinc ion is comparatively more favorable in galactose than in lactose-water mixed solvent systems. Resumen. Diferentes iones metálicos, así como carbohidratos juegan un papel vital en el metabolismo humano. La presente investigación centra su atención sobre el sulfato de zinc (ZnSO4) en galactosa y un estudio comparativo con lactosa en soluciones acuosas a las temperaturas 303.15, 308.15, 313.15K y 1 atm de presión. Se midieron diferentes cantidades físicas como densidad, viscosidad y velocidad del sonido como función de la concentración y la temperatura de las soluciones. Posteriormente, estas cantidades se utilizaron para evaluar distintos parámetros termoacústicos como impedancia acústica, compresibilidad isoentrópica, compresibilidad molal parcial, volumen molal parcial, presión interna, etc. Los resultados se analizaron para evaluar el tipo y grado de la asociación entre los componentes. Mas aún, tanto Zn2+ como SO42- están en las series de Hofmeister y hay una posibilidad de presencia de interacciones ión-macromolécula en la solución acuosa. Un punto de discusión en el presente estudio es el rompimiento de la estructura y la solvatación del soluto debidos al cambio de la temperatura de las soluciones. Es interesante hacer notar que la solvatación de los iones de zinc es comparativamente mas favorable en las soluciones acuosas de galactosa que de lactosa.

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Studies on Apparent Molal Compressibility and Molal Volume of ZnSO4 in Aqueous Saccharides Mixed Solvent Systems: A Comparative Study

Kamila

2021

J. Mex. Chem. Soc.

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Ion Solvation in Salts of Biologically Important Rare Earth Metals With Aqueous Sugar Alcohol (Sorbitol) Mixed-Solvent Systems

Cited by 1 publication

References 27 publications

Studies on Apparent Molal Compressibility and Molal Volume of ZnSO4 in Aqueous Saccharides Mixed Solvent Systems: A Comparative Study

Studies on Apparent Molal Compressibility and Molal Volume of ZnSO4 in Aqueous Saccharides Mixed Solvent Systems: A Comparative Study

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