Add to ORKGA semi-empirical heterogeneous adsorption model for the accurate prediction of analyte retention in a column chromatography with binary mobile phase on polar bonded adsorbent surface was proposed. The performance of the proposed equation was compared with two retention models reported in the literature. All models were verified for different LC systems by means of four criteria: the sum of squared differences between the experimental and theoretical data, approximation of standard deviation, Fisher test and F-test ratio
The prediction of chromatographic retention times for a wide range of chemical compounds has been a ...
Quantitative Structure-Retention Relationships (QSRR) methodology combined with the Hydrophobic Subt...
The physical and chemical nature of chemically bonded phases used in high performance liquid chromat...
Recent applications of retention modelling in liquid chromatography (2015–2020) are comprehensively ...
The retention of most compounds in RPLC proceeds through a combination of several independent mechan...
Includes bibliographical references.Includes illustrations.The mechanism of retention for chemically...
458-462The retention behaviour of some chloropyridine isomers on silica, cyano-silica and amino-sil...
Quantitative structure–retention relationships (QSRRs) were derived for logarithms of retention fact...
The retention mechanism in RPLC mode was investigated based on the acquisition of adsorption isother...
Protein retention is very sensitive to the change of solvent composition in reversed-phase liquid ch...
Reversed-phase high-performance liquid chromatographic (RP-HPLC) retention parameters, which are det...
It is shown that the Snyder equation is not quite satisfactory for fitting retention data in normal-...
Statistical evaluation of linear and quadratic models of chromatographic retention was performed. Th...
The validity of a method for characterizing stationary phases for reversed-phase liq. chromatog., ba...
The hydrophobic subtraction model (HSM) combined with quantitative structure-retention relationships...
The prediction of chromatographic retention times for a wide range of chemical compounds has been a ...
Quantitative Structure-Retention Relationships (QSRR) methodology combined with the Hydrophobic Subt...
The physical and chemical nature of chemically bonded phases used in high performance liquid chromat...
Recent applications of retention modelling in liquid chromatography (2015–2020) are comprehensively ...
The retention of most compounds in RPLC proceeds through a combination of several independent mechan...
Includes bibliographical references.Includes illustrations.The mechanism of retention for chemically...
458-462The retention behaviour of some chloropyridine isomers on silica, cyano-silica and amino-sil...
Quantitative structure–retention relationships (QSRRs) were derived for logarithms of retention fact...
The retention mechanism in RPLC mode was investigated based on the acquisition of adsorption isother...
Protein retention is very sensitive to the change of solvent composition in reversed-phase liquid ch...
Reversed-phase high-performance liquid chromatographic (RP-HPLC) retention parameters, which are det...
It is shown that the Snyder equation is not quite satisfactory for fitting retention data in normal-...
Statistical evaluation of linear and quadratic models of chromatographic retention was performed. Th...
The validity of a method for characterizing stationary phases for reversed-phase liq. chromatog., ba...
The hydrophobic subtraction model (HSM) combined with quantitative structure-retention relationships...
The prediction of chromatographic retention times for a wide range of chemical compounds has been a ...
Quantitative Structure-Retention Relationships (QSRR) methodology combined with the Hydrophobic Subt...
The physical and chemical nature of chemically bonded phases used in high performance liquid chromat...