Abstract

The present study discusses UHPLC method development allowing to establish ultra-high-resolution separations in gradient mode while operating at the kinetic performance limits, targeting the analysis of complex residual multi-class antibiotic samples in food products. The peak capacity and gradient occupation have been systematically assessed at different flow rates and gradient duration. The small particle size (1.5 µm core-shell particles) used in this study limits the mass-transfer contribution to band broadening when operating at high flow rate. As a result, for high-throughput analysis, high-pressure (1500 bar) operation leads to high resolving power where the gradient steepness dominates the peak capacity generation vs mass-transfer resistance. To reach the highest possible resolving power within a practically acceptable analysis time, one should use coupled-column systems at 1500 bar and adjust the gradient steepness correspondingly. Coupling four columns and applying a shallow gradient at 1500 bar led to a sample peak capacity of 379 in 140 min, allowing to resolve 71% of the analytes in a mixture composed of 61 milk antibiotics.

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