D.A. Doornbos scite author profile

SUMMARYFor the calibration of chromatographic systems, different methods can be used. One class of methods utilizes three-way approaches. The calibration problem is stated in such a way that the decomposition of a three-way array can serve for the prediction of retention on new stationary phases.Two three-way approaches are presented: the Unfold-PCA and PARAFAC models. The theory of both methods is presented and the differences are highlighted, the main difference being that PARAFAC is a trilinear decomposition whereas Unfold-PCA is not. Both three-way methods are evaluated on a small data set consisting of retention measurements of eight solutes at six mobile phase compositions on six stationary phases. The differences in performance of the two models are minor.For calibration purposes, two variants of the methods are discussed: three-way PLS and an extension of PARAFAC. Again the theory and differences between the two methods are explained. The predictive performance of the two methods is compared using the same data set as earlier. The differences in predictive performance, however, are minor. Both methods are capable of predicting 98% of the variation in the test sets. Yet, there are other considerations when comparing methods than predictive performance, e.g. the quality of the predictions.

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A critical evaluation of quality criteria for the optimization of chromatographic multicomponent separations

Debets

Bajema

Doornbos

1983

Analytica Chimica Acta

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Comparison of optimization methods in reversed-phase high-performance liquid chromatography using mixture designs and multi-criteria decision making

Coenegracht

Smilde

Metting

et al. 1989

Journal of Chromatography A

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Electrochemical detector flow cell based on a rotating disk electrode for continuous flow analysis and high performance liquid chromatography of catecholamines

Oosterhuis¹,

Brunt²,

Westerink³

et al. 1980

Anal. Chem.

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D.A. Doornbos

Multicriteria decision making

Three‐way methods for the calibration of chromatographic systems: Comparing PARAFAC and three‐way PLS

A critical evaluation of quality criteria for the optimization of chromatographic multicomponent separations

Comparison of optimization methods in reversed-phase high-performance liquid chromatography using mixture designs and multi-criteria decision making

Electrochemical detector flow cell based on a rotating disk electrode for continuous flow analysis and high performance liquid chromatography of catecholamines

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