A new constraint to model background signals when processing chromatographic-spectral second-order data with multivariate curve resolution.

the chemometric processing of second-order chromatographic-spectral data is usually carried out with the aid of multivariate curve resolution-alternating least-squares (MCR-ALS). When baseline contributions occur in the data, the background profile retrieved with MCR-ALS may show abnormal lumps or negative dips at the position of the remaining component peaks. The phenomenon is shown to be due to remaining rotational ambiguity in the obtained profiles, as confirmed by the estimation of the boundaries of the range of feasible bilinear profiles. To avoid the abnormal features in the retrieved profile, a new background interpolation constraint is proposed and described in detail. Both simulated and experimental data are employed to support the need of the new MCR-ALS constraint. In the latter case, the estimated analyte concentrations agreed with those previously reported. The developed procedure helps to reduce the extent of rotational ambiguity in the solution and to better interpret the results on physicochemical grounds. [Display omitted] • A new background interpolation constraint is discussed for MCR-ALS. • The constraint allows one to correctly retrieved baseline profiles. • Physical interpretation and quantitative analysis may be greatly improved. • The new constraint can be easily added to the already available in MCR-ALS. [ABSTRACT FROM AUTHOR]