Analytical and Bioanalytical Chemistry 2004-07-01

Separation of organoselenium compounds and their electrochemical detection.

Maria Th Ochsenkühn-Petropoulou, Fotios N Tsopelas

Index: Anal. Bioanal. Chem 379(5-6) , 770-6, (2004)

Full Text: HTML

Abstract

A simplified procedure based on ion-exchange separation of selenourea (Se-U) and selenocystamine (Se-CM), which have very close half-wave potential when they are simultaneously analyzed by voltammetric techniques, has been developed and optimized. Thus, selenocystamine remains in the cation exchanger Purolite C 100 H, whereas selenourea is found in the effluent and is determined by square wave cathodic stripping voltammetry using Na(2)CO(3 )as electrolyte. Selenocystamine is then eluted from the cation exchanger using 4 M HCl and analyzed by square wave cathodic stripping voltammetry in the HCl solution. For each voltammetric determination the corresponding parameters were investigated and optimized; the obtained detection limits were 0.3 ng Se mL(-1) for Se-CM and 2 ng Se mL(-1) for Se-U. A flow sheet for the separation of inorganic (Se(IV) and Se(VI)) and organoselenium compounds (Se-U, Se-CM, (CH(3))(2)Se(2), and (CH(3))(2)Se) developed for their electrochemical detection is presented and it was successfully applied to a certified reference material, an environmental soil sample, and a urine sample.


Related Compounds

Related Articles:

Pulse radiolysis studies on reactions of hydroxyl radicals with selenocystine derivatives.

2008-04-10

[J. Phys. Chem. B 112(14) , 4441-6, (2008)]

Oxidation of glutathione and superoxide generation by inorganic and organic selenium compounds.

2008-09-01

[Biofactors 31(1) , 55-66, (2007)]

Selenium functionalized intraocular lenses inhibit posterior capsule opacification in an ex vivo canine lens capsular bag assay.

2009-11-01

[Exp. Eye Res. 89(5) , 728-34, (2009)]

Cytolysis of human erythrocytes by a covalent antibody-selenium immunoconjugate.

1995-12-01

[Free Radic. Biol. Med. 19(6) , 713-24, (1995)]

Studies on the reducing systems for plant and animal thioredoxin-independent methionine sulfoxide reductases B.

2007-09-28

[Biochem. Biophys. Res. Commun. 361(3) , 629-33, (2007)]

More Articles...