Novel fabrication of on-column capillary inlet frits through flame induced sintering of stainless steel particles

Abstract

A novel fritting technology was introduced for the fused-silica capillary. The technique involved sintering of stainless steel (SS) particles at the tip of capillary through flame heating. A simple butane gas based welding torch was used for sintering the SS particles. The new fritting technique, flame induced sintering of SS particles (FIS/SSP), was applied for making frits with different inlet diameters (75 μm, 100 μm, 250 μm and 530 μm). The changes in morphologies of SS particles during sintering process were identified by scanning electron microscopy (SEM). Frits with the length of 0.5–1 mm and capillaries with inner diameter about 50–100 μm were fabricated through suitable selection of experimental conditions (size of SS particles and heating mode). The frits prepared by FIS/SSP technique exhibited adequate separation properties and mechanical strength. Columns packed with C 18 particles were stable with these frits in a few important chromatographic operations. Frits prepared by FIS/SSP technique was used in three typical separation modes namely, capillary electrochromatography (CEC), p-assisted CEC (p-CEC) and low pressure liquid chromatography (LPLC). Importantly, no bubble formation was noticed with the frit over a period of one week. A good peak symmetry and high efficiency for separation were obtained using pressure-assisted CEC, p-CEC and low pressure-driven separation modes.