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Reference type: Journal
Authors: Kim H, Guiochon G
Article Title: Thermodynamic functions and intraparticle mass transfer kinetics of structural analogues of a template on molecularly imprinted polymers in liquid chromatography.
Publication date: 2005
Journal: Journal of Chromatography A
Volume: 1097
Issue: (1-2)
Page numbers: 84-97.
DOI: 10.1016/j.chroma.2005.08.020
Alternative URL: http://www.sciencedirect.com/science/article/B6TG8-4GYH7SB-2/2/c6934b39dad9936be892cebc15c852cc

Abstract: The parameters of the thermodynamics and mass transfer kinetics of the structural analogues (L-enantiomers) of the template were measured on an Fmoc-L-tryptophan (Fmoc-L-Trp) imprinted polymer, at different temperatures. The equilibrium isotherm data and the overloaded band profiles of these compounds were measured at temperatures of 298, 313, 323, and 333 K. The isotherm data were modeled. The thermodynamic functions of the different adsorption sites were derived from the isotherm parameters, using van't Hoff plots. The mass transfer parameters were derived by comparing the experimental peak profiles and profiles calculated using the lumped pore diffusion (POR) model for chromatography. These data show that (1) the strength between the substrate molecules and the MIP increases with increasing number of functional groups on the substrates; (2) enthalpy is the driving force for the affinity of the substrates for the MIP; (3) surface diffusion is the dominant mass transfer mechanism of the substrates through the porous MIP. For those substrate molecules that have the same stereochemistry as the template, the energetic surface heterogeneity needs to be incorporated into the surface diffusion coefficients. Heterogeneous surface diffusivities decrease with increasing affinity of the substrates for the MIP
Template and target information: Fmoc-L-tryptophan, Fmoc-L-Trp
Author keywords: Fmoc-L-tryptophan imprinted polymers, frontal analysis, isotherm parameters, Van't Hoff plot, Entropy, Enthalpy, POR model, Surface diffusion, Isosteric heat of adsorption


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