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Volumn 1217, Issue 35, 2010, Pages 5610-5621
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Electrostatic model for protein adsorption in ion-exchange chromatography and application to monoclonal antibodies, lysozyme and chymotrypsinogen A
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Author keywords
Adsorption equilibrium; DLVO theory; Ion exchange; PH dependence; Retention model; Salt dependence
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Indexed keywords
ADSORPTION EQUILIBRIA;
DLVO THEORY;
PH DEPENDENCE;
RETENTION MODELS;
SALT DEPENDENCE;
ADSORPTION;
ADSORPTION ISOTHERMS;
CHROMATOGRAPHY;
ELECTRIC FURNACES;
ELECTROSTATICS;
ENZYMES;
EQUILIBRIUM CONSTANTS;
ION EXCHANGE;
ION EXCHANGERS;
IONS;
MONOCLONAL ANTIBODIES;
SURFACE PLASMON RESONANCE;
PH EFFECTS;
CHYMOTRYPSINOGEN;
LYSOZYME;
MONOCLONAL ANTIBODY;
SODIUM CHLORIDE;
ADSORPTION;
ARTICLE;
CONCENTRATION (PARAMETERS);
CONTROLLED STUDY;
DISSOCIATION CONSTANT;
EQUILIBRIUM CONSTANT;
ION EXCHANGE;
ION EXCHANGE CHROMATOGRAPHY;
IONIC STRENGTH;
PH;
PRIORITY JOURNAL;
PROCESS OPTIMIZATION;
PROTEIN INTERACTION;
SURFACE CHARGE;
CHEMICAL MODEL;
CHEMISTRY;
EVALUATION STUDY;
ISOLATION AND PURIFICATION;
KINETICS;
PROCEDURES;
ADSORPTION;
ANTIBODIES, MONOCLONAL;
CHROMATOGRAPHY, ION EXCHANGE;
CHYMOTRYPSINOGEN;
KINETICS;
MODELS, CHEMICAL;
MURAMIDASE;
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EID: 77955423797
PISSN: 00219673
EISSN: None
Source Type: Journal
DOI: 10.1016/j.chroma.2010.06.064 Document Type: Article |
Times cited : (42)
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References (35)
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