Potentiometric Detection of Organic Ionics in Separation Methods: a Critical Evaluation

Nagels, L. J.; Everaert, J.; Bohets, H.; Vissers, B.; Skwierawska, A.; Sadowska, K.

Artykuł - szczegóły

Tytuł artykułu

Potentiometric Detection of Organic Ionics in Separation Methods: a Critical Evaluation

Autorzy

Nagels L. J. , Everaert J. , Bohets H. , Vissers B. , Skwierawska A. , Sadowska K.

Identyfikatory

Warianty tytułu

Konferencja

Symposium "From Molecular Recognition to Molecular Devices", September 20-22, Gdańsk, Poland

Języki publikacji

Abstrakty

Ionically conducting rubber phase coatings are suited for use in the mobile phase conditions of HPLC (gradient elution, organic mobile phase components), and for low flow-rate applications such as used in capillary electrophoresis (CE). Especially organic ionic analytes of industrial-, biotech- and pharmaceutical environments are the potential fields of application. Much work remains to be done to understand why multiply charged molecules perform much better than expected from models used for small polyionic (mostly metal ion) subjects. The present work concentrates on phenomena that at first sight could be classified as deviations from Nernst and Nicolskii-Eisenmann type behaviour. The non-equilibrium conditions in hydrodynamic methods, lack of experimental data and lack of in sight into the process generating potential are shown as the cause of mis interpretations when using this young and promising technique.

Słowa kluczowe

potentiometry HPLC capillary electrophoresis (CE) detergents basic drugs

Wydawca

Polskie Towarzystwo Chemiczne

Czasopismo

Polish Journal of Chemistry

Rocznik

2008

Tom

Vol. 82, nr 6

Strony

1199--1205

Opis fizyczny

Bibliogr. 13 poz., rys.

Twórcy

autor

Nagels L. J.

autor

Everaert J.

autor

Bohets H.

autor

Vissers B.

autor

Skwierawska A.

autor

Sadowska K.

Antwerp University, Chemistry Department, Groenenborgerlaan 171, B-2020 Antwerp, Belgium, luc.nagels@ua.ac.be

Bibliografia

1. Hassan S.S.M., Sayour H.E.M. and Al-Mehrezi S.S., Anal Chim. Acta, 581( l), 13 (2007).
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5. Chen Z.L., Alexander P.W. and Haddad P.R., Anal. Chim. Acta, 338, 41 (l997).
6. Isildak L, Chromatographia, 49, 338 (1999).
7. Nagels L.J., Everaert J., Bohets H., Favero J.D., Goossens D., Robbens J., Pietraszkiewicz M. and Pietraszkiewicz O., Combinatorial Chemistry & High Throughput Screening, 10(7), 555 (2007).
8. Sekula J., Everaert J., Bohets H., Pietraszkiewicz M., Pietraszkiewicz O., Du Prez F., Vanhoutte K. and Nagels L.J., Anal. Chem., 78(11), 3772 (2006).
9. Vissers B., Bohets H., Everaert J., Cool P., Vansant E.F., Du Prez F., Kauffmann J.M. and Nagels L.J., Electrochim. Acta, 51(24), 5062 (2006).
10. Nagels L.J., Everaert J., Vissers B., Sekula J., Bohets H., Monge M., Peeters K., Vervoort N.,Sadowska K., Dominika S., Brewster M. and Yanhoutte K., LC-GC Europe, 20(11), 558 (2007).
11. Cheng K.L., Microchem. J., 59, 457 (1998).
12. Qiang Z., Yuan R., Chai Y.Q., Wang N., Zhuo Y., Zhang Y. and Li X.F., Electrochim. Acta, 51(18), 3763 (2006).
13. Tang D.P., Yuan R., Chai Y.Q., Zhang L.Y, Zhong X., Liu Y and Dai J.Y, Sensors and Actuators B, 104(2), 199 (2005).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-article-BUJ6-0024-0128