Page 138 - Multidimensional Chromatography

P. 138

130 Multidimensional Chromatography

REFERENCES

1. J. C. Giddings, ‘Concepts and comparison in multidimensional separation’,
J. High Resolut. Chromatogr. Chromatogr. Comm. 10:319–323 (1987).
2. J. C. Giddings, ‘Two-dimensional separation: concepts and promise’, Anal. Chem. 56:
1258A–1270A (1984).
3. Cs Horvàth and W. R. Melander, ‘Theory of chromatography’, in Chromatography:
Fundamentals and Applications of Chromatographic and Electrophoresis Methods. Part
A: Fundamentals and Techniques, Helftmann E. (Ed.), Journal of Chromatography
Library, Vol. 22, Ch. 3, A28–A135 (1983).
4. B. L. Karger, L. R. Snyder and Cs Horvàth, Introduction to Separation Science, John
Wiley & Sons, New York, pp. 146–155 (1973).
5. J. M. Davis and J. C. Giddings, ‘Statistical method for estimation of number of compo-
nents from single complex chromatograms: application to experimental chro-
matograms’, Anal. Chem. 57: 2178–2182 (1985).
6. J. C. Giddings, ‘Maximum number of components resolvable by gel ﬁltration and other
elution chromatographic methods’, Anal. Chem. 39: 1027–1028 (1967).
7. J. C. Giddings, ‘Use of multiple dimensions in analytical separations’ in
Multidimensional Chromatography: Techniques and Applications, H. J. Cortes (Ed.),
Marcell Dekker, New York, Ch. 1–27 (1990).
8. J. M. Davis and J. C. Giddings, ‘Statistical theory of component overlap in multicompo-
nent chromatograms’, Anal. Chem. 55:418–424 (1983).
9. J. C. Giddings, ‘Future pathways for analytical separations’, Anal. Chem. 53:
945A–952A (1981).
10. D. F. Samain, ‘Multidimensional chromatography in biotechnology’, in Advances in
Chromatography-Biotechnological Applications and Methods, J. C Giddings, E. Grushka
and P. R. Brown (Eds), Marcel Dekker, New York, Basel, Ch. 2, pp. 77–132 (1989).
11. F. Regnier and G. Huang, ‘Future potential of targeted component analysis by multidimen-
sional liquid chromatography–mass spectrometry’, J. Chromatogr. 750:3–10 (1996).
12. P. Campins-Falcó, R. Herráez-Hernández and A. Sevillano-Cabeza, ‘Column-switching
techniques for high performance liquid chromatography of drugs in biological samples’,
J. Chromatogr. 619:177–190 (1993).
13. E. A. Hogendoorn and P. van Zoonen, ‘Coupled-column reversed-phase liquid chro-
matography in environmental analysis’, J. Chromatogr. 703:149–166 (1995).
14. L. A. Holland and J. W. Jorgenson, ‘Separation of nanoliter samples of biological
amines by a comprehensive two-dimensional microcolumn liquid chromatography
system’, Anal. Chem. 67: 3275–3283 (1995).
15. E. A. Hogendoorn, R. Hoogerbrugge, R. A. Baumann, H. D. Meiring, A. P. J. M. de Jong
and P. van Zoonen, ‘Screening and analysis of polar pesticides in environmental monitoring
programmes by coupled-column liquid chromatography and gas chromatography–
mass spectrometry’, J. Chromatogr. 754:49–60 (1996).
16. J. A. Pascual, G. J. ten Hove and A. P. J. M. de Jong, ‘Development of a precolumn cap-
illary liquid chromatography switching system for coupling to mass spectrometry’,
J. Microcolumn. Sep. 8:383–387 (1996).
17. M. A. J. Bayliss, P. R. Baker and D. Wilkinson, ‘Determination of the two major human
metabolites of tipredane in human urine by high performance liquid chromatography
with column switching’, J. Chromatogr. 694:199–209 (1997).
18. Z. Yu and D. Westerlund, Characterization of the precolumn biotrap 500 C 18 for direct
injection of plasma samples in a column-switching system’, Chromatographia, 47:
299–304 (1998).

133 134 135 136 137 138 139 140 141 142 143