Abstract
A comprehensive normal-phase×reversed-phase (NP-LC×RP-LC) liquid chromatography system was developed, and applied for analysis of the intact carotenoid composition of red chili peppers, with photodiode array and mass spectrometry detection. A micro-bore cyano column (250mm×1.0mm, 5μm d.p.) was chosen for the first dimension (1D) separation, interfaced to a second dimension (2D) C18 column (30mm×4.6mm, 2.7μm d.p.) packed with fused-core particles. Subsequently, two columns of the same stationary phase were coupled serially for second dimension separation, and operated under ultra high pressure LC conditions (UHPLC), within a cycle time of 1.50 or 1.00min, and equal modulation times. Performances of the three different set-ups were evaluated, in terms of peak capacity values (nc), and afterwards corrected by taking into account both the under-sampling, and the orthogonality effects. After these adjustments, the peak capacity values were estimated as follows: nc 526, for the NP-LC×RP-LC system, nc 373, for the NP-LC×RP-UHPLC system with a 1.50min modulation time, nc 639, for the NP-LC×RP-UHPLC system, with a 1.00min modulation time. A total of 33 compounds were separated into 10 different chemical classes in the two-dimensional space, and identified by accurate IT-TOF (ion trap-time of flight) MS detection.
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