Bayramoğlu, G.Arica, M.Y.2020-06-252020-06-252002closedAccess0927-77571873-4359https://doi.org/10.1016/S0927-7757(01)01055-Xhttps://hdl.handle.net/20.500.12587/3019The adsorption of lysozyme has been investigated on the Procion Green H-4G immobilized novel poly(2-hydroxyethyl methacrylate)/chitosan) (pHEMA/chitosan; IPN) porous hydrogel membrane. The IPN membranes were prepared by UV initiated photo-polymerization using 2-HEMA and chitosan. The IPN membrane reached an equilibrium swelling within about 60 min. The water content of the dye immobilized membrane was 50 +/- 2% and the amount of immobilized Procion Green H-4G on the membrane was 0.678 mumol ml(-1). The rates of adsorption of lysozyme on pHEMA/chitosan and pHEMA/chitosan-dye immobilized membranes were measured in a stirred cell, The adsorption capacities of these membranes were determined by changing pH and the concentration of lysozyme in the adsorption medium. The adsorption phenomena appeared to follow a typical Langmuir isotherm. Lysozyme adsorption capacity of the pHEMA/chitosan and pHEMA/chitosan-dye immobilized membranes were 0.18 and 14.06 mg ml(-1), respectively. The maximum lysozyme adsorption capacity (q(m)) of the pHEMA-chitosan-dye immobilized membranes was 20.28 mg ml(-1) and the dissociation constant (K-d) value was found to be 1.01 mg ml(-1) lysozyme. The experimental data were also analysed using first order Van't Hoff equation for lysozyme-adsorbent interactions, the change in entropy and Gibbs energy of binding were determined at different temperatures and the enthalpy of the system was calculated as 2.5 kcal mol(-1). All of the adsorbed lysozyme were desorbed in 60 min in the desorption medium containing 1.0 M KSNC at pH 8.0. (C) 2002 Elsevier Science B.V. All rights reserved.eninfo:eu-repo/semantics/closedAccessinterpenetrating networksIPNpHEMAchitosanProcion Green H-4Gion exchange membranelysozymeadsorptionArticle2021415210.1016/S0927-7757(01)01055-X2-s2.0-0037177117Q1WOS:000175154200005Q3