2022
DOI: 10.1002/elps.202200130
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Covalent anionic copolymer coatings with tunable electroosmotic flow for optimization of capillary electrophoretic separations

Abstract: We present a method for finely adjustable electroosmotic flow (EOF) velocity in cathodic direction for the optimization of separations in capillary electrophoresis. To this end, we use surface modification of the separation fused silica capillary by the covalently attached copolymer of acrylamide (AM) and 2‐acrylamido‐2‐methyl‐1‐propanesulfonate (AMPS), that is, poly(AM‐co‐AMPS) or PAMAMPS. Coatings were formed by the in‐capillary polymerization of a mixture of the neutral AM and anionic AMPS monomers premixed… Show more

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Cited by 11 publications
(8 citation statements)
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“…Therefore, the surface roughness and thickness of the as-prepared coatings were reduced by increasing AMPS concentration, causing the surface of the coatings to become smoother. In the process of UV curing, the two monomers polymerized in PDMS to form a coating; meanwhile, the two monomers polymerized to form a PAM/AMPS binary copolymer on the surface. This is potentially why the roughness and thickness of the coating surface decrease with increasing AMPS concentration. Because further increasing the concentration of AMPS added was not conducive to the formation of the coating, the maximum concentration of AMPS was set to 6 wt %.…”
Section: Resultsmentioning
confidence: 99%
“…Therefore, the surface roughness and thickness of the as-prepared coatings were reduced by increasing AMPS concentration, causing the surface of the coatings to become smoother. In the process of UV curing, the two monomers polymerized in PDMS to form a coating; meanwhile, the two monomers polymerized to form a PAM/AMPS binary copolymer on the surface. This is potentially why the roughness and thickness of the coating surface decrease with increasing AMPS concentration. Because further increasing the concentration of AMPS added was not conducive to the formation of the coating, the maximum concentration of AMPS was set to 6 wt %.…”
Section: Resultsmentioning
confidence: 99%
“…The buffer inside the capillary is set into motion due to an electrical double layer formed at the surface of the capillary after applying an electric field, for negatively charged surfaces, as for fused silica and anionic polymers such as in Azo-Co-PSS column, positive counter ions in the diffuse double layer will move in the direction to the cathode dragging the liquid along with them. This movement of the buffer is known as EOF which plays a vital role in electrophoretic separation [43][44][45].…”
Section: Electroosmotic Flowmentioning
confidence: 99%
“…Another often observed problem during CZE separations is the adsorption of the analytes, especially proteins, and peptides, on the inner wall of the commonly used bare fused silica (BFS) capillary. To avoid this phenomenon, and to reduce or eliminate EOF, BGEs with very low pH, various additives of BGEs or different permanent capillary coatings are utilized [37][38][39][40]. The absence of EOF results in slower CE separation but it enlarges the separation window for MS and MS/MS analysis, which is necessary for large-scale proteomics.…”
Section: Introductionmentioning
confidence: 99%