Stacked centrifugal microfluidic device with three-dimensional microchannel networks and multifunctional capillary bundle structures for immunoassay

Abstract

A stacked-type centrifugal microfluidic device with three-dimensional (3D) microchannel networks and multifunctional capillary bundle structures is developed, and an immunoassay for the detection of immunoglobulin G (IgG) is demonstrated. The device consists of multiple layers of disk-like chips with conventional planar microchannels and vertical capillary bundle structures that are constructed on disks of poly(dimethylsiloxane) and poly(methyl methacrylate). The integration of multiple reactors up to 10 reactors on a disk with 8cm in diameter is realized by reducing the area of reservoir but increasing the thickness. Moreover the thick optical detection reservoir is also realized for absorption spectroscopy in the 3D centrifugal microfluidics. 3D liquid valving on the vertical capillary bundle structures and liquid transportation through these structures are successfully demonstrated. The results show the successful control of the multistep liquid injection without problems such as blockage of capillary bundle by bubbles that expected to be caused due to 3D structure. The results of the immunoassay show clear response to analyte concentration suggesting successful unit operations in developed 3D centrifugal microfluidic device for immunoassay. Finally, the advantages and impact of the 3D design for the development of high-performance centrifugal microfluidic systems are summarized.