One of the fundamental advantages of translating analytical separations to the microchip format is the ability to run multiple analyses in parallel. High throughput can be achieved by simultaneously analysing different samples, and more information can be obtained faster when samples are simultaneously analysed by complementary methods. This work introduces a new microfluidic approach for delivering individualised separation chemistries to separate microchannels for simultaneous analysis. In addition to electrokinetic injection, a new method was developed for hydrodynamic injection of a single sample into two separation channels using dyes and applied to the analysis of inorganic cations.
History
Volume
3
Pagination
1857-1859
Location
Freiburg, Germany
Start date
2013-10-27
End date
2013-10-31
ISBN-13
9781632666246
Language
eng
Publication classification
E1.1 Full written paper - refereed
Copyright notice
2013, Chemical and Biological Microsystems Society
Editor/Contributor(s)
[Unknown]
Title of proceedings
µTAS 2013 : Proceedings of the 17th International Conference on Miniaturized Systems for Chemistry and Life Sciences
Event
Chemical and Biological Microsystems Society. International Conference (17th : 2013 : Freiburg, Germany)
Publisher
Chemical and Biological Microsystems Society
Place of publication
Washington, D.C.
Series
Miniaturized Systems for Chemistry and Life Sciences International Conference