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Optimal Mixing Rate in Linear Solvent Strength Gradient Liquid Chromatography

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The mixing rate (R-phi) is the temporal rate of increase in the solvent strength in gradient LC. The optimal R-phi (R-phi,(Opt)) for a gradient analysis is the one at which a required separation capacity and peak capacity of the analysis are obtained in the shortest time. The R-phi,(Opt) of LSS (linear solvent strength) gradient LC is found in dimensionless form (r(phi),(Opt)) expressing R-phi,(Opt) in units of hold-up time (t(0)) and characteristic strength -constant (Phi(char)). Previously unknown effect of the gradient band compression on the peak capacity is taken into account. The r(phi),(Opt) depends on the solvent composition range covered by the mixing ramp and on the available pressure. A default r(phi) at which the analysis time is contained within 30% margin of its minimum at r(phi),(Opt) for a broad range of conditions is proposed. As an example, the recommended default for small -molecule samples is 5% increase in the solvent strength per each t(0)-long increment in time. At this rate, approximately 0.2 root N units of peak capacity are generated per each 10% solvent strength increment. The effect of a column kinetic optimization is also evaluated.
Tijdschrift: Anal Chem
ISSN: 0003-2700
Issue: 4
Volume: 88
Pagina's: 2281-2288
Jaar van publicatie:2016
Trefwoorden:Programmed Gas-Chromatography, Separation Performance, Peak-Capacity, Plate Height, Column Chromatography, Theoretical Plate, Elution, Metrics, Size, OPTIMIZATION
CSS-citation score:1
Auteurs:International
Toegankelijkheid:Closed