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Adsorption and Binding Interaction of Anionic Surfactant to Polysaccharides


Affiliations
1 Department of Food Technology & Biochemical Engineering, Jadavpur University, Kolkata-700 032, India
2 Chemistry Department, Bose Institute, 93, Acharya Prafulla Chandra Road, Kolkata-700 009, India
     

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The extents of adsorption of SDS (Sodium Dodecyl Sulphate) onto cellulose and binding of SDS to dextrin in aqueous medium have been measured as a function of surfactant concentration (C2) under different physicochemical conditions. Γ12 increases with increase of C2, until it reaches the maximum value, Γm2 at a critical concentration, Cm2. With increase of C2 further, Γ12 decreases linearly with C2 until it becomes zero at the azeotropic state. Γ12 becomes negative and its magnitude increases with increase of C2 further without reaching a limiting value. Using the concept of Gibbs surface excess, it has been shown that binding and adsorption of both surfactant and water to polysaccharide are responsible for the overall shape of the isotherm. The standard Gibbs free energy change, ΔG0 for the transfer of moles of surfactant to 1 kg of dextrin or cellulose at the state of surface saturation has been calculated using an integrated form of the Gibbs adsorption equation. The values of ΔG0 follow the same order as those of Γm2. The average slope of the linear plot of ΔG0 vs Γm2 is equal to 28.4 kJ/mol for binding experiment, and 27.9 kJ/mol for adsorption experiment. This corresponds to the standard free energy change (ΔG0B) for the transfer of 1 mol of surfactant from the bulk solution to the polysaccharide boundary when the bulk mole fraction of surfactant is altered from zero to unity. The values of ΔG0hy for different systems at high surfactant concentration have also been calculated using a linear extrapolation method, and they are found to be positive in all cases due to excess positive hydration of polysaccharide.

Keywords

Adsorption, Binding, Surfactant, Polysaccharides.
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  • Adsorption and Binding Interaction of Anionic Surfactant to Polysaccharides

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Authors

Ebrahim Halderk
Department of Food Technology & Biochemical Engineering, Jadavpur University, Kolkata-700 032, India
D. K. Chattoraj
Department of Food Technology & Biochemical Engineering, Jadavpur University, Kolkata-700 032, India
K. P. Das
Chemistry Department, Bose Institute, 93, Acharya Prafulla Chandra Road, Kolkata-700 009, India

Abstract


The extents of adsorption of SDS (Sodium Dodecyl Sulphate) onto cellulose and binding of SDS to dextrin in aqueous medium have been measured as a function of surfactant concentration (C2) under different physicochemical conditions. Γ12 increases with increase of C2, until it reaches the maximum value, Γm2 at a critical concentration, Cm2. With increase of C2 further, Γ12 decreases linearly with C2 until it becomes zero at the azeotropic state. Γ12 becomes negative and its magnitude increases with increase of C2 further without reaching a limiting value. Using the concept of Gibbs surface excess, it has been shown that binding and adsorption of both surfactant and water to polysaccharide are responsible for the overall shape of the isotherm. The standard Gibbs free energy change, ΔG0 for the transfer of moles of surfactant to 1 kg of dextrin or cellulose at the state of surface saturation has been calculated using an integrated form of the Gibbs adsorption equation. The values of ΔG0 follow the same order as those of Γm2. The average slope of the linear plot of ΔG0 vs Γm2 is equal to 28.4 kJ/mol for binding experiment, and 27.9 kJ/mol for adsorption experiment. This corresponds to the standard free energy change (ΔG0B) for the transfer of 1 mol of surfactant from the bulk solution to the polysaccharide boundary when the bulk mole fraction of surfactant is altered from zero to unity. The values of ΔG0hy for different systems at high surfactant concentration have also been calculated using a linear extrapolation method, and they are found to be positive in all cases due to excess positive hydration of polysaccharide.

Keywords


Adsorption, Binding, Surfactant, Polysaccharides.