The development of novel stationary phases to achieve high-efficiency separation is still an important topic in separation sciences. Covalent organic frameworks (COFs) with the advantages of large specific surface areas, high porosity and stability have attracted great attention in chromatographic field. Here, a novel crystalline covalent organic framework (TzDa-V) was designed and synthesized by condensation reaction between 4,4',4″-(1,3,5-Triazine-2,4,6-triyl)trianiline (Tz) and 2,5-diallyloxyterephthalaldehyde (Da-V) for open-tubular capillary electrochromatography (OT-CEC). Thanks to the regular shape, strong hydrophobicity and microporous structure of COF TzDa-V, the TzDa-V modified capillary column exhibited excellent efficiency for the separation of several groups of small molecules, including alkylbenzenes, chlorobenzenes, sulfonamides and so on. The maximum column efficiency can reach about 2.0 × 105 plates•m-1 (for chlorobenzene). Besides, the prepared COF TzDa-V modified OT-column can afford methylbenzene loading capacity of 127.72 pmol. Also, the OT-columns were considerably stable and reproducible. The RSDs of intra-day (n = 3), inter-day (n = 3) and three batches runs for the retention times of four benzenes were all below 1.89%. Our successful work indicates the great potential of COF TzDa-V in CEC for high-efficiency separation.
Keywords: Capillary electrochromatography; Covalent organic frameworks; Electrochromatographic separation; High-efficiency; Open-tubular column; Stationary phase.
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