Preparation of monolithic capillary columns for capillary electrochromatography by γ-ray irradiation

Abstract

A novel approach is introduced and evaluated for the preparation of silica-based monoliths by a sol–gel technique where in situ polymerization was carried out by γ-ray irradiation within the capillary. The γ-radiation-initiated synthesis generated radicals directly on the monomer, thereby avoiding use of any initiator. The chromatographic behavior of the capillary monolithic columns was studied in the modes of CEC, p-CEC and low pressure-driven separation, all of which exhibited reversed-phase character. Various operational parameters, such as column temperature, separation voltage, acetonitrile content and buffer pH, were varied to assess their influence on column performance in the separation of a series of neutral compounds including thiourea, benzene, toluene, ethyl benzene, biphenyl and naphthalene. A scanning electron micrograph of a cross-section of the capillary column showed that the gel took the form of a spherical particle aggregate and adhered to the column inner wall. It provided a viable alternative to either thermally initiated or photo polymerization for the preparation of monolithic columns.