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Titolo: A NEW APPROACH TO THE RESOLUTION OF THE EXCITATIONEMISSION SPECTRA OF MULTICOMPONENT SYSTEMS
Autore: LIWO A; SKURSKI P; OLDZIEJ S; LANKIEWICZ L; MALICKA J; WICZK W;
 Indirizzi:
 UNIV GDANSK,DEPT CHEM,SOBIESKIEGO 18 PL80952 GDANSK POLAND
 Titolo Testata:
 Computers & chemistry
fascicolo: 2,
volume: 21,
anno: 1997,
pagine: 89  96
 SICI:
 00978485(1997)21:2<89:ANATTR>2.0.ZU;2H
 Fonte:
 ISI
 Lingua:
 ENG
 Soggetto:
 FLUORESCENCE;
 Keywords:
 RESOLUTION; EXCITATION; EMISSION; SPECTRA; FLUORESCENCE;
 Tipo documento:
 Article
 Natura:
 Periodico
 Settore Disciplinare:
 CompuMath Citation Index
 Science Citation Index Expanded
 Science Citation Index Expanded
 Citazioni:
 14
 Recensione:
 Indirizzi per estratti:



 Citazione:
 A. Liwo et al., "A NEW APPROACH TO THE RESOLUTION OF THE EXCITATIONEMISSION SPECTRA OF MULTICOMPONENT SYSTEMS", Computers & chemistry, 21(2), 1997, pp. 8996
Abstract
A method has been developed for the calculation of the emission, absorption, and concentration characteristics of chemical species from thefluorescence spectra recorded for a series of solutions of varying composition at different excitation wavelengths. The threedimensional fluorescenceintensity array (whose ijkth element is the fluorescence intensity of the ith solution at the jth excitation and the kth emission wavelength) is assumed to be a trilinear product of the excitation (X), emission (Y), and concentration (C) characteristics of the emitting species. The decomposition of experimental spectra is carried out inthree steps. In the first step, an eigenvector analysis of the Gauss transform of the fluorescence array is performed, whose rank is the lower bound to the rank of the matrices X, Y, and C, and thereby to the number of independently emitting chemical species present in the system. In the second step, factorization of the eigenvectors of the Gauss transform of the fluorescence array is performed, which gives approximate factor matrices X, Y, and C. The obtained factors correspond to exact decomposition, if there is no error in the data. In the third step, the factors are refined by means of a nonlinear leastsquares method, which is directed at minimizing the sum of the squares of the differences between the elements of the observed and calculated fluorescencearray. Application of the method to the fluorescence spectrum of mixtures of anthracene and 9methylanthracene resulted in perfect resolution of the fluorescence spectra into the component excitation and emission spectra and correct profiles of component concentrations. It is also shown that if the numbers of absorbing and emitting species are notequal, as occurs for the betanaphtolbetanaphtolate system in acid and neutral aqueous solution, unambiguous decomposition of the spectrum is impossible to carry out. Copyright (C) 1996 Elsevier Science Ltd
ASDD Area Sistemi Dipartimentali e Documentali, Università di Bologna, Catalogo delle riviste ed altri periodici
Documento generato il 04/12/20 alle ore 16:18:32