β-Cyclodextrin covalent organic framework–modified organic polymer monolith as a stationary phase for combined hydrophilic and hydrophobic aqueous capillary electrochromatographic separation of small molecules

“…COF composites have been extensively used for separation applications and chemical sensing. To mention a few, capillary electrochromatographic separation (CEC) of small organic molecules including amides, amino acids, nucleosides, aromatic acids, and positional isomers was recently documented using β‐cyclodextrin combined with TPA‐COF loaded on a monolithic organic polymeric column [200] . COF‐based stationary phases have outperformed in HPLC as well.…”

“…To mention a few, capillary electrochromatographic separation (CEC) of small organic molecules including amides, amino acids, nucleosides, aromatic acids, and positional isomers was recently documented using β-cyclodextrin combined with TPA-COF loaded on a monolithic organic polymeric column. [200] COF-based stationary phases have outperformed in HPLC as well. To date, hybrid stationary phases have been identified based on silica particles coated with 2D COFs, such as TpBD, [148] COF-5, [201] BTA-MTH COF, [39] and chiral-TpPa-1 COF, [36] as well as 3D COFs, such as COF-300.…”

Covalent‐Organic Framework Composites: A Review Report on Synthesis Methods

“…COF composites have been extensively used for separation applications and chemical sensing. To mention a few, capillary electrochromatographic separation (CEC) of small organic molecules including amides, amino acids, nucleosides, aromatic acids, and positional isomers was recently documented using β‐cyclodextrin combined with TPA‐COF loaded on a monolithic organic polymeric column [200] . COF‐based stationary phases have outperformed in HPLC as well.…”

“…To mention a few, capillary electrochromatographic separation (CEC) of small organic molecules including amides, amino acids, nucleosides, aromatic acids, and positional isomers was recently documented using β-cyclodextrin combined with TPA-COF loaded on a monolithic organic polymeric column. [200] COF-based stationary phases have outperformed in HPLC as well. To date, hybrid stationary phases have been identified based on silica particles coated with 2D COFs, such as TpBD, [148] COF-5, [201] BTA-MTH COF, [39] and chiral-TpPa-1 COF, [36] as well as 3D COFs, such as COF-300.…”

Covalent‐Organic Framework Composites: A Review Report on Synthesis Methods

“…embedded β ‐CD‐COF in poly[(glycidyl methacrylate)‐co‐(ethylene dimethacrylate)] [poly(GMA‐co‐EDMA)] monolith, which was used as a stationary phase to achieve the separation of three amides, three amino acids, three nucleosides, four aromatic acids, and three positional isomers. [ 95 ] Ji et al. modified the same β ‐CD‐COF on the capillary as a chiral stationary phase for the separation of chiral drugs, which shortened the separation time and had good repeatability.…”

Recent Advances of Porous Materials Based on Cyclodextrin

“…COF composites have been successfully applied as stationary phases for molecular separations in capillary electrochromatography and HPLC. β-Cyclodextrin combined with TPA-COF loaded on a monolithic organic polymeric column was recently reported for capillary electrochromatographic separation (CEC) of small organic molecules, such as amides, amino acids, nucleosides, aromatic acids, and positional isomers [ 78 ]. The hydrophilic β-cyclodextrin/TPA-COF composite provides dipole-dipole and hydrogen-bonding interactions, showing enhanced performance for chromatographic separation in comparison to untreated monolithic polymeric column.…”

Covalent Organic Framework Composites: Synthesis and Analytical Applications