Modeling the combined effect of temperature and organic modifier content on reversed-phase chromatographic retention. Effectiveness of derived models in isocratic and isothermal mode retention prediction

Journal of Chromatography A

Volumn 1201, Issue 1, 2008, Pages 27-34

  Pappa Louisi, A ^a   Nikitas, P ^a   Papachristos, K ^a   Zisi, C ^a  

^a ARISTOTLE UNIVERSITY OF THESSALONIKI   (Greece)

Author keywords

Combined temperature mobile phase composition effect; Isocratic isothermal retention prediction; Reversed phase liquid chromatography

Indexed keywords

ACETONITRILE; ADSORPTION; ALGEBRA; DIFFERENCE EQUATIONS; ENTHALPY; FORECASTING; MATHEMATICAL MODELS; MATHEMATICAL MORPHOLOGY; MICROFLUIDICS; STANDARDS; TELLURIUM COMPOUNDS; THERMODYNAMICS;

ADJUSTABLE PARAMETERS; ADSORPTION MODELING; ALKYLBENZENES; AQUEOUS ACETONITRILE; CHROMATOGRAPHIC RETENTION; COLUMN TEMPERATURE; COMBINED EFFECTS; CURVATURE (SORI); ELSEVIER (CO); ELUENTS; ISOCRATIC; MOBILE PHASE; ORGANIC CONTENTS; ORGANIC MODIFIERS; PREDICTION ERRORS; RETENTION PREDICTION; RETENTION PROCESSES; REVERSED PHASE (RP); SOLUTE RETENTION; STANDARD ENTHALPIES;

NUMERICAL METHODS;

ACETONITRILE; ALKYLBENZENE; BENZENE; CUMENE; ETHYLBENZENE; ORGANIC COMPOUND; PROPYLBENZENE; TERT BUTYLBENZENE; TOLUENE;

ADSORPTION; ANALYTICAL EQUIPMENT; ARTICLE; ENTHALPY; LIQUID CHROMATOGRAPHY; MODEL; PREDICTION; PRIORITY JOURNAL; SPECTROPHOTOMETER; TEMPERATURE SENSITIVITY; THERMODYNAMICS;

CHROMATOGRAPHY, HIGH PRESSURE LIQUID; MODELS, THEORETICAL; ORGANIC CHEMICALS; SOLVENTS; TEMPERATURE;

EID: 46449111359     PISSN: 00219673     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.chroma.2008.05.083     Document Type: Article

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