Three-dimensional fluorinated covalent organic frameworks coated capillary for the separation of fluoroquinolones by capillary electrochromatography

In this work, a three-dimensional fluorinated covalent organic frameworks (3D FCOFs) JUC-515 was synthesized from tetra(4-aminophenyl)methane (TAM) and 2,3,5,6-tetrafluoroterephthalol (TFA) by an ionic liquid method. JUC-515 was introduced into the capillary column and bonded to the inner wall of the capillary column by chemical bonding. Through a variety of characterization results, JUC-515 was successfully synthesized and introduced into the capillary column. The effects of buffer solution concentration, organic additive content and pH of the buffer solution on the separation of fluoroquinolones (FQs) were investigated in detail. The JUC-515coated capillary column showed good resolution (>1.5) and reproducibility. The relative standard deviations (RSDs) of the retention time for intraday, interday, column-to-column and interbatch precision were less than 0.88%, 2.45%, 2.74% and 3.32%, respectively. The RSDs of the peak area for intraday, interday, column-tocolumn and interbatch precision were less than 3.79%, 4.31%, 3.33% and 5.62%, respectively. The JUC-515coated capillary column could be used no less than 150 times. The results showed that the JUC-515-coated capillary column had good separation performance. In addition, by separating fluorinated & beta;-phenylalanine analogs, & beta;-phenylalanine and trifluoromethyl & beta;-phenylalanine analogs, the separation mechanism based on fluorine interactions was discussed. In conclusion, JUC-515 had good potential as a stationary phase for capillary electrochromatography.

Automated summary

In this study, a three-dimensional fluorinated covalent organic framework (FCOF) JUC-515 was successfully synthesized and introduced into a capillary column. The effects of buffer solution concentration, organic additive content, and pH on the separation of fluoroquinolones were investigated. The JUC-515-coated capillary column showed good separation performance and reproducibility, making it a promising stationary phase for capillary electrochromatography.