Low-Cost Paper-Based Microfluidic Diagnostic Device

Prof. Mulchandani and his colleagues from the University of California, Riverside have developed a new paper-based microfluidic platform for the simple and low-cost fabrication of single-walled carbon nanotube (SWNT)-based chemiresistive nanobiosensor arrays for multianalyte sensing from a single small volume sample that may be used as point-of-care diagnostic for a variety of purposes, including healthcare, food safety, environment, etc. This device is created by utilizing a wax printer to construct well-defined hydrophobic barriers for equal splitting and delivery of fluid and an inkjet printer to fabricate chemiresistors using a water-based SWNT ink on a paper substrate. Currently, the quantitative and selective detection of both human serum albumin (HSA) and human immunoglobulin G (hIgG) simultaneously in urine has been demonstrated by UCR. This paper-based chemiresistive biosensor is easy to fabricate, and designed for cost-effective, rapid, sensitive and selective detection of analyte(s) of interest. This technology provides a platform for automated, disposable paper-based point-of-care diagnostics with multiplexed detection capability and microfluidic controls. Fig 1: A 3D microfluidic multiplexed paper-based biosensor array device. Grace Yee grace.yee@ucr.edu 951-827-2212

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