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Автор Hutchinson, Joseph P.
Автор Hilder, Emily F.
Автор Shellie, Robert A.
Автор Smith, Jason A.
Автор Haddad, Paul R.
Дата выпуска 2006
dc.description The preparation of high capacity agglomerated monolithic ion-exchangers for capillary ion chromatography is described. Post-modification of reactive monoliths was investigated as an alternative to co-polymerisation of a suitable functional monomer with an overarching goal of increasing ion-exchange capacity. Direct sulfonation of poly styrene-co-divinyl benzene monoliths using concentrated sulfuric acid or chlorosulfonic acid was unsuccessful even for monoliths containing as low as 8% crosslinker. In contrast, chemical transformation of reactive monoliths containing glycidyl methacrylate was used to increase the ion-exchange capacity by up to more than thirty-fold with ion exchange capacities of 14â 29 µequiv g<sup>â 1</sup> achieved. Three different reactions were considered, including reaction with 4-hydroxybenenesulfonic acid under basic conditions; reaction with thiobenzoic acid followed by transformation to a reactive thiol and the subsequent oxidation to the sulfonic acid; and direct sulfonation with sodium sulfite. Of these, the reaction with sodium sulfite resulted in the most significant increase in the capacity and the best separation performance. In the isocratic mode separation efficiencies of over 13â 500 plates m<sup>â 1</sup> were observed (for iodate). The separation of seven inorganic anions was also demonstrated using a hydroxide gradient.
Формат application.pdf
Издатель Royal Society of Chemistry
Название Towards high capacity latex-coated porous polymer monoliths as ion-exchange stationary phases
Тип research-article
DOI 10.1039/b511398a
Electronic ISSN 1364-5528
Print ISSN 0003-2654
Журнал Analyst
Том 131
Первая страница 215
Последняя страница 221
Аффилиация Hutchinson Joseph P.; Australian Centre for Research on Separation Science (ACROSS), School of Chemistry, University of Tasmania
Аффилиация Hilder Emily F.; Australian Centre for Research on Separation Science (ACROSS), School of Chemistry, University of Tasmania
Аффилиация Shellie Robert A.; Australian Centre for Research on Separation Science (ACROSS), School of Chemistry, University of Tasmania
Аффилиация Smith Jason A.; Australian Centre for Research on Separation Science (ACROSS), School of Chemistry, University of Tasmania
Аффилиация Haddad Paul R.; Australian Centre for Research on Separation Science (ACROSS), School of Chemistry, University of Tasmania
Выпуск 2
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