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Multimaterial 3D printing: integrated electrodes for ITP of bacteria cells


Phung, SC and Li, F and Macka, M and Powell, SM and Guijt, RM and Breadmore, MC, Multimaterial 3D printing: integrated electrodes for ITP of bacteria cells, Proceedings of the 20th International Conference on Miniaturized Systems for Chemistry and Life Sciences, MicroTAS 2016, 09-13 October, Dublin, Ireland, pp. 1081-1082. ISBN 978-1-5108-3416-3 (2016) [Conference Extract]

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Copyright 2016 Chemical and Biological Microsystems Society.

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The electrical resistance of the 3D integrated electrodes in a microfluidic chip was examined. The electrodes had a resistance of 0.3 Mn, equivalent to 40% of the total resistance when compared with Pt electrode. The 3D print integrated chip was able to perform isotachophoresis (ITP) of Escherichia coli (E. coli) by fluorescence after staining with a universal nucleic acid dye offline.

Item Details

Item Type:Conference Extract
Keywords:isotachophoresis, 3D multimaterial chip
Research Division:Chemical Sciences
Research Group:Medicinal and biomolecular chemistry
Research Field:Medicinal and biomolecular chemistry not elsewhere classified
Objective Division:Expanding Knowledge
Objective Group:Expanding knowledge
Objective Field:Expanding knowledge in the health sciences
UTAS Author:Phung, SC (Ms Sui Phung)
UTAS Author:Li, F (Mr Feng Li)
UTAS Author:Macka, M (Professor Mirek Macka)
UTAS Author:Powell, SM (Ms Susan Powell)
UTAS Author:Guijt, RM (Dr Rosanne Guijt)
UTAS Author:Breadmore, MC (Professor Michael Breadmore)
ID Code:118921
Year Published:2016
Deposited By:Austn Centre for Research in Separation Science
Deposited On:2017-07-24
Last Modified:2017-12-14
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