Calibration and detailed analysis of second-order flow injection analysis data with rank overlap

With the current popularity of second-order (or hyphenated) instruments, there now exists a number of chemometric techniques for the so-called second-order calibration problem, i.e. that of quantifying an analyte of interest in the presence of one (or more) unknown interferent(s). Second-order instr...

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Bibliographic Details
Published in:Analytica chimica acta 2000-10, Vol.422 (1), p.21-36
Main Authors: Reis, Marlon M., Gurden, Stephen P., Smilde, Age K., Ferreira, Márcia M.C.
Format: Article
Language:English
Subjects:
Analytical chemistry
Chemistry
Exact sciences and technology
Flow injection analysis
Rank overlap
Second-order calibration methods
Spectrometric and optical methods
Two-mode component analysis
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Summary:With the current popularity of second-order (or hyphenated) instruments, there now exists a number of chemometric techniques for the so-called second-order calibration problem, i.e. that of quantifying an analyte of interest in the presence of one (or more) unknown interferent(s). Second-order instruments produce data of varying complexity, one particular phenomenon sometimes encountered being that of rank overlap (or rank deficiency), where the overall rank of the data is not equal to the sum of the ranks of the contributing species. The purpose of the present work is to evaluate the performance of two second-order calibration methods, a least squares-based and an eigenvalue-based solution, in terms of their quantitative ability and stability, as applied to flow injection analysis (FIA) data which exhibits rank overlap. In the presence of high collinearity in the data, the least squares methods is found to give a more stable solution. Two-mode component analysis (TMCA) is used to investigate the reasons for this difference in terms of the chemical properties of the species analysed. The success of second-order calibration of this data is found to depend strongly on the collinearity between the acidic and basic time profiles and the reproducibility of the pH gradient in the FIA channel, both of which are shown to be related to the p K a values of the species.
ISSN:0003-2670
1873-4324
DOI:10.1016/S0003-2670(00)01061-8