Graphene oxide-based a network porous poly (trially isocyanurate-co-methacrylate) monolithic column for HPLC separation of aromatic molecular and lipopeptide antibiotics

“…In LC, a monolithic column prepared by the polymerization of 3-chloro-2-hydroxypropylmethacrylate (HPMA-Cl) and ethylene dimethacrylate (EDMA), followed by the fixation of GO, was used recently for the determination of chloramphenicol (CAP), a veterinarian antibiotic, and chloramphenicol glucuronide (CAPG), a metabolite from CAP, in honey and milk samples [ 15 ]. Another interesting application of graphene-based monolithic columns evaluated five ingredients in Schisandra , a purple-red berry typically used in traditional Chinese medicine [ 38 ]. For this study, a column produced by the co-polymerization of GO with triallyl isocyanurate (TAIC) and methyl methacrylate (MMA) was employed to separate schizandrol A, schizandrol B, schisandra A, schisandra B, and schisandra C in reversed-phase LC [ 38 ].…”

“…Another interesting application of graphene-based monolithic columns evaluated five ingredients in Schisandra , a purple-red berry typically used in traditional Chinese medicine [ 38 ]. For this study, a column produced by the co-polymerization of GO with triallyl isocyanurate (TAIC) and methyl methacrylate (MMA) was employed to separate schizandrol A, schizandrol B, schisandra A, schisandra B, and schisandra C in reversed-phase LC [ 38 ]. The CEC mode has also employed graphene-based monolithic sorbents to separate usual water contaminants.…”

“…Life Sci. 1203, Guo, Y.; Si, H.; Li, H.; Zhao, X.; Zhao, Y.; Li, S.; Wang, Q.; Zhu, B., Graphene Oxide-Based a Network Porous Poly (Trially Isocyanurate-Co-Methacrylate) Monolithic Column for HPLC Separation of Aromatic Molecular and Lipopeptide Antibiotics., Starting page 123310, Copyright (2022), Elsevier [ 38 ]. ( C ).…”

“…The variety of analytes that can be analyzed using these phases is as diverse as applying graphene-based sorbents in analytical techniques. Proteins [ 35 ], hormones [ 30 ], aromatic contaminants [ 36 ], pharmaceutical compounds [ 37 , 38 ], and others [ 2 , 39 ] are examples of analytes separated in columns composed by the graphene-based stationary phase.…”

Recent Trends in Graphene-Based Sorbents for LC Analysis of Food and Environmental Water Samples

“…In LC, a monolithic column prepared by the polymerization of 3-chloro-2-hydroxypropylmethacrylate (HPMA-Cl) and ethylene dimethacrylate (EDMA), followed by the fixation of GO, was used recently for the determination of chloramphenicol (CAP), a veterinarian antibiotic, and chloramphenicol glucuronide (CAPG), a metabolite from CAP, in honey and milk samples [ 15 ]. Another interesting application of graphene-based monolithic columns evaluated five ingredients in Schisandra , a purple-red berry typically used in traditional Chinese medicine [ 38 ]. For this study, a column produced by the co-polymerization of GO with triallyl isocyanurate (TAIC) and methyl methacrylate (MMA) was employed to separate schizandrol A, schizandrol B, schisandra A, schisandra B, and schisandra C in reversed-phase LC [ 38 ].…”

“…Another interesting application of graphene-based monolithic columns evaluated five ingredients in Schisandra , a purple-red berry typically used in traditional Chinese medicine [ 38 ]. For this study, a column produced by the co-polymerization of GO with triallyl isocyanurate (TAIC) and methyl methacrylate (MMA) was employed to separate schizandrol A, schizandrol B, schisandra A, schisandra B, and schisandra C in reversed-phase LC [ 38 ]. The CEC mode has also employed graphene-based monolithic sorbents to separate usual water contaminants.…”

“…Life Sci. 1203, Guo, Y.; Si, H.; Li, H.; Zhao, X.; Zhao, Y.; Li, S.; Wang, Q.; Zhu, B., Graphene Oxide-Based a Network Porous Poly (Trially Isocyanurate-Co-Methacrylate) Monolithic Column for HPLC Separation of Aromatic Molecular and Lipopeptide Antibiotics., Starting page 123310, Copyright (2022), Elsevier [ 38 ]. ( C ).…”

“…The variety of analytes that can be analyzed using these phases is as diverse as applying graphene-based sorbents in analytical techniques. Proteins [ 35 ], hormones [ 30 ], aromatic contaminants [ 36 ], pharmaceutical compounds [ 37 , 38 ], and others [ 2 , 39 ] are examples of analytes separated in columns composed by the graphene-based stationary phase.…”

Recent Trends in Graphene-Based Sorbents for LC Analysis of Food and Environmental Water Samples

“…TAIC is one of the polyfunctional monomers with a thermally stable triazine ring and three allyl groups, which can make the microspheres possess a highly crosslinked structure and stability in the solvent, and a conducive to recovery. 38,39 MAH participating in the copolymerization endows the microspheres with sufficient anhydride functional groups. More importantly, a porous structure with interconnected channels can be created in the microsphere with a certain monomer ratio and solvent component, which is favorable to enhance the accessibility of organic compounds with a small molecular size to the adsorptive sites located at the inner part of microspheres.…”

Super-adsorbent microspheres based on a triallyl isocyanurate–maleic anhydride copolymer for the removal of organic pollutants from water

Fabrication and application of Zn5 functionalized copolymer monolithic column for pipette tip micro-solid phase extraction of 4 polycyclic aromatic hydrocarbons in edible oil