Capillary zone electrophoresis using a hollow polypropylene fiber

A new method for the modification of polypropylene hollow-fiber columns for capillary electrophoresis is reported. Chlorination was first used to activate the capillary inner surface. This was followed by treating the column with an alkaline solution containing polyhydroqpropylcellulose. A protein m

## Abstract Surface treatment methods were developed for bonding of a polyacrylamide layer on the inside surface of polypropylene hollow fiber columns for capillary electrophoresis. Details of different modification procedures involving surface activation and in situ polymerization, using dynamic a

A method for modification of polypropylene hollow fibers using graft Ž . copolymerization of polymethylmethacrylate PMMA was developed. The unsaturated residues in polypropylene were reacted with borane-dimethylsulfide, and PMMA was graft polymerized on the surface to form a stable coating which red

## Abstract In this paper, polymeric hollow fibers prepared from polypropylene and polybutylene terephthalate were used as CE columns. Surface modifications with polyacrylamide greatly improved the performance of the capillaries. Separations of substituted pyridines, model proteins and standard rib

Fused-silica capillaries often lack long-term stability and control of electroosmotic flow in capillary electrophoresis owing to the reactivity of the bulk silica structure in aqueous solutions of high or low pH. Polypropylene hollow fibers, an alternative to fused silica, have been chemically modif