Polyvinylmethylsiloxanedol (50% vinyl) was synthesized and combined with a cross-linker for static coating onto fused-silica columns. After cross-linking and binding to the surface, linear polyacrylamide was grafted to the double bonds of the siloxanediol; subsequently, this linear polymer matrix was cross-linked with formaldehyde. The grafted neutral polymeric layer provided suppression of electroosmotic flow and minimized adsorption. This combination yielded successful open tube and polymer network separations of proteins, peptides and \DNA\ molecules. Very high efficiencies (ca. 1 · 106 plates/m) were achieved for open tube protein separations, and hundreds of consecutive runs were performed with minimal change in migration times.
Description
Characterization and performance of a neutral hydrophilic coating for the capillary electrophoretic separation of biopolymers
%0 Journal Article
%1 schmalzing1993characterization
%A Schmalzing, Dieter
%A Piggee, Christine A.
%A Foret, Frantisek
%A Carrilho, Emanuel
%A Karger, Barry L.
%D 1993
%J Journal of Chromatography A
%K fabrication phd polymer
%N 1
%P 149--159
%R 10.1016/0021-9673(93)80655-R
%T Characterization and performance of a neutral hydrophilic coating for the capillary electrophoretic separation of biopolymers
%U http://www.sciencedirect.com/science/article/pii/002196739380655R
%V 652
%X Polyvinylmethylsiloxanedol (50% vinyl) was synthesized and combined with a cross-linker for static coating onto fused-silica columns. After cross-linking and binding to the surface, linear polyacrylamide was grafted to the double bonds of the siloxanediol; subsequently, this linear polymer matrix was cross-linked with formaldehyde. The grafted neutral polymeric layer provided suppression of electroosmotic flow and minimized adsorption. This combination yielded successful open tube and polymer network separations of proteins, peptides and \DNA\ molecules. Very high efficiencies (ca. 1 · 106 plates/m) were achieved for open tube protein separations, and hundreds of consecutive runs were performed with minimal change in migration times.
@article{schmalzing1993characterization,
abstract = {Polyvinylmethylsiloxanedol (50% vinyl) was synthesized and combined with a cross-linker for static coating onto fused-silica columns. After cross-linking and binding to the surface, linear polyacrylamide was grafted to the double bonds of the siloxanediol; subsequently, this linear polymer matrix was cross-linked with formaldehyde. The grafted neutral polymeric layer provided suppression of electroosmotic flow and minimized adsorption. This combination yielded successful open tube and polymer network separations of proteins, peptides and \{DNA\} molecules. Very high efficiencies (ca. 1 · 106 plates/m) were achieved for open tube protein separations, and hundreds of consecutive runs were performed with minimal change in migration times. },
added-at = {2013-12-02T10:42:58.000+0100},
author = {Schmalzing, Dieter and Piggee, Christine A. and Foret, Frantisek and Carrilho, Emanuel and Karger, Barry L.},
biburl = {https://www.bibsonomy.org/bibtex/2a34e264471a73fe69dea5531ba10583c/bkoch},
description = {Characterization and performance of a neutral hydrophilic coating for the capillary electrophoretic separation of biopolymers},
doi = {10.1016/0021-9673(93)80655-R},
interhash = {e7a44edbaca1793f506a719f3251d849},
intrahash = {a34e264471a73fe69dea5531ba10583c},
issn = {0021-9673},
journal = {Journal of Chromatography A },
keywords = {fabrication phd polymer},
note = {Fifth International Symposium on High Performance Capillary Electrophoresis },
number = 1,
pages = {149--159},
timestamp = {2013-12-02T10:59:47.000+0100},
title = {Characterization and performance of a neutral hydrophilic coating for the capillary electrophoretic separation of biopolymers },
url = {http://www.sciencedirect.com/science/article/pii/002196739380655R},
volume = 652,
year = 1993
}