Silver-cemented frit formation for the stabilization of the packing structure in the microchannel of electrochromatographic microchips

► We demonstrate new approach for the frit structure formation at the ends of the silica-packed microchannel on a CEC microchip. ► It was formed by controlled soaking of the silica packing in Ag(NH 3) 2 + solution followed by formaldehyde reduction. ► Rigorous erosion test proved the stability of th...

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Bibliographic Details
Published in:Journal of Chromatography A 2011-10, Vol.1218 (43), p.7895-7899
Main Authors: Park, Jongman, Oh, Hyejin, Jeon, In-Sun
Format: Article
Language:English
Subjects:
Analytical chemistry
Capillary electrochromatography
Chemistry
Chromatographic methods and physical methods associated with chromatography
chromatography
Diffusion
Electrochromatographic microchip
Electroless plating
Entrances
Exact sciences and technology
Formaldehyde
Frit
Frit treatment
Microchannels
Other chromatographic methods
Plugging
scanning electron microscopy
Self assembly packing
silica
Stabilization
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Summary:► We demonstrate new approach for the frit structure formation at the ends of the silica-packed microchannel on a CEC microchip. ► It was formed by controlled soaking of the silica packing in Ag(NH 3) 2 + solution followed by formaldehyde reduction. ► Rigorous erosion test proved the stability of the frit structure and packing in the microchannel. ► Extension of the lifetime of the microchip for CEC separation was possible with this treatment. A simple but effective frit formation technique was developed to stabilize the packing structure inside the microchannel of capillary electrochromatographic microchips, utilizing the electroless plating technique. A Ag(NH 3) 2 + solution was allowed to diffuse through the colloidal silica packing in the microchannel from the reservoir of the microchip for a limited amount of time, and then it was reduced by an excess amount of formaldehyde solution. A frit structure of ∼70 μm in length was formed at the entrance of the microchannel without clogging when treated with 1 mM Ag(NH 3) 2 + ion and formaldehyde for 30 s and 150 s, respectively. The formation of the frit structure was confirmed by a scanning electron microscopy. The stability of the packing structure was tested rigorously and then confirmed by applying alternating electroosmotic flows back and forth with pulsed potential steps on both sides of the frit structure. The effect of the treatment on the electrochromatograms was evaluated after the microchips were repeatedly used and stored for a long period of time. The results indicated that the silver-cemented frit structure extended the lifetime of the fully packed CEC microchips distinctly.
ISSN:0021-9673
DOI:10.1016/j.chroma.2011.08.097