Mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography
Silica monolith column having mixed-mode i.e., hydrophobic (C18) and anion exchange interaction was successfully synthesized by on-column modification of the hybrid tetramethoxysilanes (TMOS) and methyltrimethoxysilanes (MTMS) using octadecyldimethyl-(N-N-diethylamino)silane (ODS) and ion exchange m...
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my.utm.123642017-09-17T08:17:25Z http://eprints.utm.my/id/eprint/12364/ Mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography Jemale, Alia Sofie T Technology (General) TP Chemical technology Silica monolith column having mixed-mode i.e., hydrophobic (C18) and anion exchange interaction was successfully synthesized by on-column modification of the hybrid tetramethoxysilanes (TMOS) and methyltrimethoxysilanes (MTMS) using octadecyldimethyl-(N-N-diethylamino)silane (ODS) and ion exchange monomer of N-[3-(dimethylamino)propyl]acrylamide (DMAPAA-Q) methyl chloride-quaternary salt, for the surface modification. The preparation of the ODS/DMAPAA-Q silica monolith column was carried out in a fused silica capillary column of 75 µm internal diameter. At each modification stage, the ODS/DMAPAA-Q silica monolith column was chromatographically characterized with micro liquid chromatography (µLC) and produced separation efficiencies of up to 43000 plates/min at the optimum velocity using the test mixture of alkylbenzenes, and 41800 plates/min for selected nucleotides. The ODS/DMAPAA-Q silica monolith column was also characterized physically with scanning electron microscope (SEM), and showed to have an average through-pore size and skeleton size of 2.2 µm and 2.0 µm, respectively. The ODS/DMAPAA-Q silica monolith column was then characterized in capillary electrochromatography (CEC) for the separation of inorganic and organic ions using a 50 mM phosphate pH 6.9 background electrolyte. The inorganic anions and organic ions were separated within 10 mins with column efficiency up to 114900 plates/min. The results suggest that modifying a silica monolith capillary column through in-situ polymerization of a monomer carrying a functional group can yield high efficiency columns for the ion-exchange-mode separation as well as for reversed-phased separations. The analysis of the porous silica monolith columns with CEC yields higher performance than CZE analysis for the separation of anions. 2010 Thesis NonPeerReviewed application/pdf en http://eprints.utm.my/id/eprint/12364/9/AliaSofieJemaleMFSA2010.pdf Jemale, Alia Sofie (2010) Mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography. Masters thesis, Universiti Teknologi Malaysia, Faculty of Science. |
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T Technology (General) TP Chemical technology Jemale, Alia Sofie Mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography |
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Silica monolith column having mixed-mode i.e., hydrophobic (C18) and anion exchange interaction was successfully synthesized by on-column modification of the hybrid tetramethoxysilanes (TMOS) and methyltrimethoxysilanes (MTMS) using octadecyldimethyl-(N-N-diethylamino)silane (ODS) and ion exchange monomer of N-[3-(dimethylamino)propyl]acrylamide (DMAPAA-Q) methyl chloride-quaternary salt, for the surface modification. The preparation of the ODS/DMAPAA-Q silica monolith column was carried out in a fused silica capillary column of 75 µm internal diameter. At each modification stage, the ODS/DMAPAA-Q silica monolith column was chromatographically characterized with micro liquid chromatography (µLC) and produced separation efficiencies of up to 43000 plates/min at the optimum velocity using the test mixture of alkylbenzenes, and 41800 plates/min for selected nucleotides. The ODS/DMAPAA-Q silica monolith column was also characterized physically with scanning electron microscope (SEM), and showed to have an average through-pore size and skeleton size of 2.2 µm and 2.0 µm, respectively. The ODS/DMAPAA-Q silica monolith column was then characterized in capillary electrochromatography (CEC) for the separation of inorganic and organic ions using a 50 mM phosphate pH 6.9 background electrolyte. The inorganic anions and organic ions were separated within 10 mins with column efficiency up to 114900 plates/min. The results suggest that modifying a silica monolith capillary column through in-situ polymerization of a monomer carrying a functional group can yield high efficiency columns for the ion-exchange-mode separation as well as for reversed-phased separations. The analysis of the porous silica monolith columns with CEC yields higher performance than CZE analysis for the separation of anions. |
| format |
Thesis |
| author |
Jemale, Alia Sofie |
| author_facet |
Jemale, Alia Sofie |
| author_sort |
Jemale, Alia Sofie |
| title |
Mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography |
| title_short |
Mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography |
| title_full |
Mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography |
| title_fullStr |
Mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography |
| title_full_unstemmed |
Mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography |
| title_sort |
mixed-mode silica monolith as an efficient separation medium for capillary electrochromatography |
| publishDate |
2010 |
| url |
http://eprints.utm.my/id/eprint/12364/9/AliaSofieJemaleMFSA2010.pdf http://eprints.utm.my/id/eprint/12364/ |
| _version_ |
1643645935177170944 |
| score |
13.214268 |