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The use of ﬂow splitters between the two dimensions in online comprehensive two-dimensional (2D) liquid chromatography (LC LC) has not received very much attention, in comparison with their use in 2D gas chromatography (GC GC), where they are quite common. In principle, splitting the ﬂow after the ﬁrst dimension column and performing online LC LC on this constant fraction of the ﬁrst dimension eﬄuent should allow the two dimensions to be optimized almost independently. When there is no ﬂow splitting, any change in the ﬁrst-dimension ﬂow rate has an immediate impact on the second dimension.With a ﬂow splitter, one could, for example, double the ﬂow rate into the ﬁrst dimension column and perform a 1:1 ﬂow split without changing the sample loop size or the sampler?s collection time. Of course, the sensitivity would be diminished, but this can be partially compensated through the use of a larger injection; this will likely only amount to a small price to pay for this increased resolving power and system ﬂexibility. Among other beneﬁts, we found a 2-fold increase in the corrected 2D peak capacity and the number of observed peaks for a 15-min analysis time, using a post-ﬁrst-dimension ﬂow splitter. At a ﬁxed analysis time, this improvement results primarily from an increase in the gradient time, resulting fromthe reduced system re-equilibration time, and, to a smaller extent, it is due to the increased peak capacity achieved by full optimization of the ﬁrst dimension.