Probability distributions of the number of chromatographically resolved peaks and resolvable components in mixtures

[1]  M. Novotny,et al.  Capillary supercritical fluid chromatography , 1981 .

[2]  G. Guiochon,et al.  Statistical approach for estimating the total number of components in complex mixtures from nontotally resolved chromatograms , 1984 .

[3]  M. Novotny,et al.  Instrumental aspects of capillary supercritical fluid chromatography , 1982 .

[4]  Origin and characterization of departures from the statistical model of component-peak overlap in chromatography. , 1984, Journal of chromatography.

[5]  D. McManigill,et al.  Supercritical fluid chromatography with small particle diameter packed columns , 1982 .

[6]  J. Giddings Maximum number of components resolvable by gel filtration and other elution chromatographic methods , 1967 .

[7]  L. D. Rothman,et al.  Pressure control of a liquid chromatograph pump , 1976 .

[8]  Milton L. Lee,et al.  Theoretical treatment of resolving power in open tubular column supercritical fluid chromatography , 1983 .

[9]  D. Rosenthal Theoretical limitations of gas chromatographic/mass spectrometric identification of multicomponent mixtures , 1982 .

[10]  F. Bickmann,et al.  Überkritische Flüssig-Chromatographie verschiedener Metalchellate von 8-Hydroxychinolin, Diethyldithiocarbamat und Acetylaceton , 1985 .

[11]  Joe M. Davis,et al.  Statistical theory of component overlap in multicomponent chromatograms , 1983 .

[12]  H. Habgood,et al.  Retention Temperature and Column Efficiency in Programmed Temperature Gas Chromatography , 1960 .

[13]  G. Guiochon,et al.  Analogy between the depolymerization and separation processes. Application to the statistical evaluation of complex chromatograms , 1985 .