University of North Florida
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Contact Info

Stuart Chalk, Ph.D.
Department of Chemistry
University of North Florida
Phone: 1-904-620-1938
Fax: 1-904-620-3535
Email: schalk@unf.edu
Website: @unf

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Robert Lejeune

Abbrev:
Lejeune, R.
Other Names:
Address:
Service de Chimie Analytique, Institut de Pharmacie, Université de Liège, Avenue de l'Hôpital, 1, CHU, Tour 4, Niveau + 2, Sart Tilman, B-4000 Liege, Belgium
Phone:
NA
Fax:
+32-4-366-4317

Citations 2

"Chemiluminescence As A Diagnostic Tool. A Review"
Talanta 2000 Volume 51, Issue 3 Pages 415-439
C. Dodeigne, L. Thunus and R. Lejeune

Abstract: The principles of chemiluminescence and its applications as a diagnostic tool are reviewed. After an introduction to the theoretical aspects of luminescence and energy transfer, the different classes of chemiluminogenic labels including luminol, acridinium compounds, coelenterazine and analogues, dioxetanes, systems based on peroxyoxalic acid and their derivatives are described emphasizing the molecules which best fulfil the requirements of todays clinical chemistry. Applications of chemiluminescence and enhanced chemiluminescence to immunoassays, receptor assays, DNA probes, biosensors and oxygen metabolism are discussed as well as the role of enzymes in the selectivity and the sensitivity of these reactions.
Chemiluminescence Review

"High Stability And High Efficiency Chemiluminescent Acridinium Compounds Obtained From 9-acridine Carboxylic Esters Of Hydroxamic And Sulphohydroxamic Acids"
Luminescence 2000 Volume 15, Issue 5 Pages 311-320
R. Renotte, G. Sarlet, L. Thunus, R. Lejeune

Abstract: A series of hydroxamic acids and sulphohydroxamic acids were prepared and linked to 9-acridinecarboxylic acid through a pseudo-ester function. After N-methylation of the heterocyclic ring, the different compounds were tested for their chemiluminescent properties. Substituents on the hydroxamic functions have shown various effects (steric or electronic) on the luminescence yield or stability of the molecule. The most interesting derivatives were selected in terms of chemical stability and chemiluminescence efficiency. 9-[(N-hydroxysuccinimidyl-4-oxo-4-N-phenylaminobutanoate)N-carboxylate]-10-methyl-acridinium (FA6), 9-(N-phenylpivalamide-N-carboxylate)-N-10-methylacridinium (FA17) and 9-(N-phenylpivalamide N-carboxylate)-10-carboxymethyl-acridinium (FA18) iodomercurates are very promising as chemiluminescent labels. These compounds can be detected at very low levels (10^-16 - 10^-17 mol/L) and in our stability evaluation, FA6, FA17 and FA18 showed similar results to the acridinium ester DMAE, Their half-lives at 20°C are greater than two weeks.