posted on 2014-08-19, 00:00authored byMax M. Gong, Pei Zhang, Brendan D. MacDonald, David Sinton
Low-cost
paper-based assays are emerging as the platform for diagnostics
worldwide. Paper does not, however, readily enable advanced functionality
required for complex diagnostics, such as analyte concentration and
controlled analyte transport. That is, after the initial wetting,
no further analyte manipulation is possible. Here, we demonstrate
active concentration and transport of analytes in fully wet paper-based
assays by leveraging nanoporous material (mean pore diameter ≈
4 nm) and ion concentration polarization. Two classes of devices are
developed, an external stamp-like device with the nanoporous material
separate from the paper-based assay, and an in-paper device patterned
with the nanoporous material. Experimental results demonstrate up
to 40-fold concentration of a fluorescent tracer in fully wet paper,
and directional transport of the tracer over centimeters with efficiencies
up to 96%. In-paper devices are applied to concentrate protein and
colored dye, extending their limits of detection from ∼10 to
∼2 pmol/mL and from ∼40 to ∼10 μM, respectively.
This approach is demonstrated in nitrocellulose membrane as well as
paper, and the added cost of the nanoporous material is very low at
∼0.015 USD per device. The result is a major advance in analyte
concentration and manipulation for the growing field of low-cost paper-based
assays.