Microfluidic channel fabrication in dry film resist for production and prototyping of hybrid chips

P. Vulto; N. Glade; L. Altomare; J. Bablet; L. Del Tin; G. Medoro; I. Chartier; N. Manaresi; M. Tartagni; R. Guerrieri

doi:10.1039/B411885E

Microfluidic channel fabrication in dry film resist for production and prototyping of hybrid chips

P. Vulto,*^a N. Glade,^b L. Altomare,^a J. Bablet,^b L. Del Tin,^a G. Medoro,^c I. Chartier,^b N. Manaresi,^c M. Tartagni^a and R. Guerrieri^a

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* Corresponding authors

^a ARCES, University of Bologna, Viale Pepoli 3/2, Bologna, Italy
E-mail: P.Vulto@gmx.net

^b CEA-LETI, 17 Rue des Martyrs, Grenoble, France

^c Silicon Biosystems s.r.l., Via S. Stefano 132, Bologna, Italy

Abstract

Microfluidic networks are patterned in a dry film resist (Ordyl SY300/550) that is sandwiched in between two substrates. The technique enables fabrication of complex biochips with active elements both in the bottom and the top substrate (hybrid chips). The resist can be double bonded at relatively low temperatures without the use of extra adhesives. A postbake transfers the resist into a rigid structure. The resist is qualified in terms of resolution, biocompatibility and fluidic sealing. Fabrication in both a fully equipped cleanroom setting as well as a minimally equipped laboratory is described. The technique is applied for dielectrophoresis-based cell separation systems and a fuel cell reaction chamber with micropillars. The dry film resist can be considered a cheap and fast alternative to SU-8.

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Microfluidic channel fabrication in dry film resist for production and prototyping of hybrid chips

Abstract

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Microfluidic channel fabrication in dry film resist for production and prototyping of hybrid chips

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