Fuente: PubMed "wine" Anal Chem. 2026 May 11. doi: 10.1021/acs.analchem.5c08280. Online ahead of print.ABSTRACTA modulation mechanism for comprehensive two-dimensional liquid chromatography (LC × LC), termed FBF-VAST (forward-backward-flushing valve-assisted selectivity tuning), is introduced. This technique enables modulation using a simple system configuration centered around a 4-port valve. The concept lies in periodic forward-backward flushing of the first-dimension (1D) column, enabling synchronized analyte holding and release with a stepped-gradient transferred to the second dimension (2D). The modulation period (PM) is defined by the forward- and backward-flushing durations (tfwd + tbwd), with the net injection window (Δtnet = tfwd - tbwd) delivering analyte fractions into the 2D-column. These processes were simulated using advection-dispersion equations modified to include analyte retention, resulting in solvent and analyte space-time profiles, along with animations that illustrate the modulation mechanism. A unique selectivity-tuning effect was demonstrated through the 1D-column simulation and LC × LC experiments using two C18 columns operated under a unified binary gradient for red wine sample separation, yielding 27-55 separated peaks of interest. The selectivity can be effectively adjusted solely by tuning the Valve A timing (tfwd) or gradient steepness─without altering mobile phase composition or stationary phase chemistry. Repeatability studies showed %RSDs of peak areas within 5.28-11.77% (n = 6). In addition, the method enabled backflushing for online 1D-column cleaning, which may extend column life and improve robustness. This cost-effective and tunable LC × LC strategy offers enhanced control over chromatographic selectivity and long-term stability, all within a simplified instrumental design.PMID:42113047 | DOI:10.1021/acs.analchem.5c08280