Fabrication and characterization of a fully integrated biosensor associating microfluidic device and RF circuit

This paper presents the first results of the fabrication and characterization of a biological sensor based on two complementary parts. A microfluidic channel along with a micromachined stop-band filter are used to detect the type of fluid which flows beneath the electronic circuit. The tridimensiona...

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Hauptverfasser:	Pinon, S., Diedhiou, D.L., Boukabache, A., Conedera, V., Bourrier, D., Gue, A-M, Prigent, G., Rius, E., Quendo, C., Potelon, B., Favennec, J-F.
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Biosensors filter microfluidic Microfluidics Microstrip microwave Microwave measurements Microwave theory and techniques Resonator sensor SU8 Substrates Transmission line measurements
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creator	Pinon, S. Diedhiou, D.L. Boukabache, A. Conedera, V. Bourrier, D. Gue, A-M Prigent, G. Rius, E. Quendo, C. Potelon, B. Favennec, J-F.
description	This paper presents the first results of the fabrication and characterization of a biological sensor based on two complementary parts. A microfluidic channel along with a micromachined stop-band filter are used to detect the type of fluid which flows beneath the electronic circuit. The tridimensional (3D) structure of the microstrip technology is integrated using SU8 material which thus supports the use of buried channels. Besides being a method without contact, this bio-sensor avoids evaporation, contamination, or label fixation. Changes to the cutoff frequency and attenuation allow us to differentiate three values of the salt in water concentration with a maximum variation of attenuation of 6.5%.
doi_str_mv	10.1109/MWSYM.2012.6259480
format	Conference Proceeding
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A microfluidic channel along with a micromachined stop-band filter are used to detect the type of fluid which flows beneath the electronic circuit. The tridimensional (3D) structure of the microstrip technology is integrated using SU8 material which thus supports the use of buried channels. Besides being a method without contact, this bio-sensor avoids evaporation, contamination, or label fixation. Changes to the cutoff frequency and attenuation allow us to differentiate three values of the salt in water concentration with a maximum variation of attenuation of 6.5%.</abstract><pub>IEEE</pub><doi>10.1109/MWSYM.2012.6259480</doi><tpages>3</tpages></addata></record>
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identifier	ISSN: 0149-645X
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source	IEEE Electronic Library (IEL) Conference Proceedings
subjects	Biosensors filter microfluidic Microfluidics Microstrip microwave Microwave measurements Microwave theory and techniques Resonator sensor SU8 Substrates Transmission line measurements
title	Fabrication and characterization of a fully integrated biosensor associating microfluidic device and RF circuit
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