Add to ORKGThis paper presents the development of chromatography, two mathematical methods for describing chromatographic phenomena, band broadening processes as well as the procedure for retention volume measurement and calculation. The plate and the rate theories for gas chromatographic phenomena are comprehensively discussed. The reduction of infinite dilution activity coefficients from retention data is explained. While the rate theory can predict the influence of various factors on column performance, the plate theory is more useful in the calculation of thermodynamic properties such as infinite dilution activity coefficients, enthalpy and entropy of mixtures
Liquid chromatography is a very important separation method used in practi-cally all chemistry field...
Abstract--The ffects of sample size, liquid Ioadin R, particle size, column length, and colulnn temp...
A numerical method is described to predict retention times and peak widths of a mixture containing c...
This paper presents the development of chromatography, two mathematical methods for describing chrom...
The models proposed by many authors for the prediction of retention times and temperatures, peak wid...
International audienceAfter a brief recall of the chromatographic principles, the different applicat...
International audienceAfter a brief recall of the chromatographic principles, the different applicat...
International audienceAfter a brief recall of the chromatographic principles, the different applicat...
Chromatography is, in principle, a dilution process. In HPLC analysis, on dis-solving the substances...
The unified form of retention equation of chromatography is suggested by adopting statistical thermo...
Propagation of concentration fronts (non-linear waves) in chromatographic processes is a result of b...
Numerical procedures for the estimation of the retention are compared considering the simultaneous p...
Propagation of concentration fronts (non-linear waves) in chromatographic processes is a result of b...
Propagation of concentration fronts (non-linear waves) in chromatographic processes is a result of b...
Chromatography is a widely used method of physical separation of mixtures into pure components based...
Liquid chromatography is a very important separation method used in practi-cally all chemistry field...
Abstract--The ffects of sample size, liquid Ioadin R, particle size, column length, and colulnn temp...
A numerical method is described to predict retention times and peak widths of a mixture containing c...
This paper presents the development of chromatography, two mathematical methods for describing chrom...
The models proposed by many authors for the prediction of retention times and temperatures, peak wid...
International audienceAfter a brief recall of the chromatographic principles, the different applicat...
International audienceAfter a brief recall of the chromatographic principles, the different applicat...
International audienceAfter a brief recall of the chromatographic principles, the different applicat...
Chromatography is, in principle, a dilution process. In HPLC analysis, on dis-solving the substances...
The unified form of retention equation of chromatography is suggested by adopting statistical thermo...
Propagation of concentration fronts (non-linear waves) in chromatographic processes is a result of b...
Numerical procedures for the estimation of the retention are compared considering the simultaneous p...
Propagation of concentration fronts (non-linear waves) in chromatographic processes is a result of b...
Propagation of concentration fronts (non-linear waves) in chromatographic processes is a result of b...
Chromatography is a widely used method of physical separation of mixtures into pure components based...
Liquid chromatography is a very important separation method used in practi-cally all chemistry field...
Abstract--The ffects of sample size, liquid Ioadin R, particle size, column length, and colulnn temp...
A numerical method is described to predict retention times and peak widths of a mixture containing c...