Abstract
Chip-based microfluidics enable the seamless integration of different functions into single devices. Here, we present microfluidic chips containing porous polymer monolithic columns as a means to facilitate chemical transformations as well as both downstream chromatographic separation and mass spectrometric analysis. Rapid liquid phase lithography prototyping creates the multifunctional device economically.
Highlights
View Article OnlineChip-based microfluidics enable the seamless integration of different functions into single devices
The integration of miniaturized chemical reactors[1] and analytical techniques[2,3] into single microfluidic devices[4,5] is attractive for process development
Glass-polymer-MS-chips were prepared via liquid phase lithography based on a method described earlier.[11]
Summary
Chip-based microfluidics enable the seamless integration of different functions into single devices. We present microfluidic chips containing porous polymer monolithic columns as a means to facilitate chemical transformations as well as both downstream chromatographic separation and mass spectrometric analysis. Rapid liquid phase lithography prototyping creates the multifunctional device economically
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