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Binding Of Methacrylate-based Monoliths To PEEK Supports For HPLC Separations | 34620
ISSN: 2155-9872
Journal of Analytical & Bioanalytical Techniques
Open Access
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Binding of methacrylate-based monoliths to PEEK supports for HPLC separations
6th International Conference and Exhibition on Analytical & Bioanalytical Techniques
Enrique Javier Carrasco-Correa, Rocío García-Aboal, Paula Plaza-Jarque, Aida López-Serna, Guillermo Ramis-Ramos, Ernesto Francisco Simó-Alfonso and José
Manuel Herrero-Martínez
Porous monolithic materials are becoming increasingly popular as stationary phases for miniaturized separation techniques.
Monoliths have high permeabilities, which enables excellent performance for the fast separation of large molecules. From a
chemical viewpoint, the typical monolith consists of a cross-linked polymer backbone that carries the functional groups providing the
dedicated selectivity. Monoliths are mostly prepared in fused silica capillaries to be used as separation media in capillary HPLC and
electrochromatography. For this purpose, silanization of the inner surface is required to assure binding of the monolith to the silica
support. This avoids both ejection of the monolith under external pressure and peak tailing due to gaps located close to the support
walls. However, the small inner diameters of silica capillaries (75-520 μm) prevent their use in conventional HPLC. Therefore, there
is a need of developing methods to covalently bind monoliths to other supports commonly available in much larger inner diameters
than silica capillaries. In this work, procedures to modify the surface of Poly Ether Ether Ketone (PEEK) tubes so that they bind with
poly methacrylate-based monoliths for HPLC separations, are described and compared. For this purpose, 0.75 mm i.d. PEEK tubes
were used. After selection of binding procedure, several polymerization variables (monomer/cross-linker ratio, type and content of
initiator, among others) were studied in order to tailor the chromatographic performance of the resulting columns. Chromatographic
tests were applied to provide information about the anchoring of the monolith to the tube wall. Also, mixtures of alkylbenzenes and
organophosphorus compounds were used to characterize the chromatographic performance of the developed stationary phases.