Theoretical and experimental investigation of the focusing position in asymmetrical flow field-flow fractionation (AF4)

•New theoretical expression for calculating the focusing position.•Good agreement between calculated and experimental values of zfoc.•Good repeatability and reproducibility of zfoc. To better understand the focusing process and to determine the focusing position (zfoc) in Asymmetrical Flow Field-Flo...

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Bibliographic Details
Published in:Journal of Chromatography A 2018-08, Vol.1561, p.67-75
Main Authors: Wang, Jia-Lan, Alasonati, Enrica, Fisicaro, Paola, Benedetti, Marc F., Martin, Michel
Format: Article
Language:English
Subjects:
Asymmetrical flow field-flow fractionation
Focalization
Focusing position
Sciences of the Universe
Trapezoidal channel
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Summary:•New theoretical expression for calculating the focusing position.•Good agreement between calculated and experimental values of zfoc.•Good repeatability and reproducibility of zfoc. To better understand the focusing process and to determine the focusing position (zfoc) in Asymmetrical Flow Field-Flow Fractionation (AF4), theoretical and experimental studies were performed. A new theoretical expression that allows the calculation of zfoc in AF4 channels of any shape having an axial plane of symmetry was established. The equation was then applied to the particular case of a trapezoidal AF4 channel with tapered ends. The applicability of this equation was verified by comparing the calculated results with the experimental measures of the focusing position obtained using blue dextran dye under different flow conditions. The calculated values and the experimental results were in good agreement. The total uncertainty associated with the calculated zfoc was evaluated and was lower than 10%. A good repeatability and reproducibility of the focusing position was obtained. Moreover, the effects of the sample-injection position, the spacer thickness, the membrane aging, and the nature of the injected sample on the focusing position were investigated: zfoc was not influenced by these parameters, proving the universal applicability of the equation given in this work for predicting the focusing position, when the assumption of constancy of the cross-flow velocity at the membrane, which underlies this equation, is fulfilled. Additionally, it is notable that this theoretical expression is suitable for different models of AF4 channel and not peculiar to specific suppliers.
ISSN:0021-9673
1873-3778
DOI:10.1016/j.chroma.2018.04.056