Protein adsorption on novel acrylamido-based polymeric ion exchangers. II. Adsorption rates and column behavior.
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G. Carta | A. Hunter | A K Hunter | G Carta
[1] Don W. Green,et al. Perry's chemical engineers' handbook. 7th ed. , 1997 .
[2] E. Graham,et al. Prediction of adsorption and desorption of protein on dextran based ion‐exchange resin , 1985 .
[3] Alírio E. Rodrigues,et al. Residence time distribution of inert and linearly adsorbed species in a fixed bed containing “large-pore” supports: applications in separation engineering , 1991 .
[4] A. Liapis,et al. Equilibrium and kinetic parameters of the adsorption of α-chymotrypsinogen A onto hydrophobic porous adsorbent particles , 1994 .
[5] G. Carta. Linear driving force approximation for intraparticle diffusion and convection in permeable supports , 1995 .
[6] Giorgio Carta,et al. Uptake of phenylalanine and tyrosine by a strong-acid cation exchanger , 1989 .
[7] Alírio E. Rodrigues,et al. Diffusion and convection in chromatographic processes using permeable supports with a bidisperse pore structure , 1993 .
[8] G. Guiochon,et al. Kinetic Study of the Concentration Dependence of the Mass Transfer Rate Coefficient in Anion‐Exchange Chromatography of Bovine Serum Albumin , 1999, Biotechnology progress.
[9] J. Talbot,et al. Analysis of steric hindrance effects on adsorption kinetics and equilibria , 1994 .
[10] R. Hartmann,et al. THE INFLUENCE OF PROTEIN SIZE ON ADSORPTION KINETICS AND EQUILIBRIA IN ION-EXCHANGE CHROMATOGRAPHY , 1999 .
[11] Thomas W. Weber,et al. Pore and solid diffusion models for fixed-bed adsorbers , 1974 .
[12] A. I. Liapis,et al. Modeling and analysis of biospecific adsorption in a finite bath , 1987 .
[13] M. T. Tyn,et al. Prediction of diffusion coefficients of proteins , 1990, Biotechnology and bioengineering.
[14] G. Carta,et al. Characterization of protein adsorption by composite silica-polyacrylamide gel anion exchangers I. Equilibrium and mass transfer in agitated contactors , 1996 .
[15] D. Ruthven,et al. Analytical solution of the breakthrough curve for rectangular isotherm systems , 1984 .
[16] G. Carta,et al. Protein Adsorption on Cation Exchangers: Comparison of Macroporous and Gel‐Composite Media , 1996 .
[17] W. Deen. Hindered transport of large molecules in liquid‐filled pores , 1987 .
[18] Alois Jungbauer,et al. Prediction of the preparative chromatography performance with a very small column , 1997 .
[19] A. Liapis,et al. Theory of perfusion chromatography , 1992 .
[20] A. Lenhoff,et al. Comparison of protein adsorption isotherms and uptake rates in preparative cation-exchange materials. , 1998, Journal of chromatography. A.
[21] Motonobu Yoshikawa,et al. Parallel transport of BSA by surface and pore diffusion in strongly basic chitosan , 1994 .
[22] G. Carta,et al. Protein adsorption and desorption on gel-filled rigid particles for ion exchange , 1998 .
[23] G. Carta,et al. Protein adsorption on novel acrylamido-based polymeric ion-exchangers. I. Morphology and equilibrium adsorption. , 2000, Journal of chromatography. A.
[24] Howard A. Chase,et al. Modelling single-component protein adsorption to the cation exchanger s sepharose® FF , 1990 .
[25] G. Carta,et al. Protein diffusion in charged polyacrylamide gels. Visualization and analysis. , 1999, Journal of chromatography. A.
[26] J. Mollerup,et al. Application of the two-film theory to the determination of mass transfer coefficients for bovine serum albumin on anion-exchange columns. , 1998, Journal of chromatography. A.
[27] Athanasios I. Liapis,et al. Network modeling of the intraparticle convection and diffusion of molecules in porous particles packed in a chromatographic column , 1998 .