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Two-dimensional paper networks: programmable fluidic disconnects for multi-step processes in shaped paper.


ABSTRACT: Most laboratory assays take advantage of multi-step protocols to achieve high performance, but conventional paper-based tests (e.g., lateral flow tests) are generally limited to assays that can be carried out in a single fluidic step. We have developed two-dimensional paper networks (2DPNs) that use materials from lateral flow tests but reconfigure them to enable programming of multi-step reagent delivery sequences. The 2DPN uses multiple converging fluid inlets to control the arrival time of each fluid to a detection zone or reaction zone, and it requires a method to disconnect each fluid source in a corresponding timed sequence. Here, we present a method that allows programmed disconnection of fluid sources required for multi-step delivery. A 2DPN with legs of different lengths is inserted into a shared buffer well, and the dropping fluid surface disconnects each leg at in a programmable sequence. This approach could enable multi-step laboratory assays to be converted into simple point-of-care devices that have high performance yet remain easy to use.

SUBMITTER: Lutz BR 

PROVIDER: S-EPMC4892121 | biostudies-literature | 2011 Dec

REPOSITORIES: biostudies-literature

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Two-dimensional paper networks: programmable fluidic disconnects for multi-step processes in shaped paper.

Lutz Barry R BR   Trinh Philip P   Ball Cameron C   Fu Elain E   Yager Paul P  

Lab on a chip 20111028 24


Most laboratory assays take advantage of multi-step protocols to achieve high performance, but conventional paper-based tests (e.g., lateral flow tests) are generally limited to assays that can be carried out in a single fluidic step. We have developed two-dimensional paper networks (2DPNs) that use materials from lateral flow tests but reconfigure them to enable programming of multi-step reagent delivery sequences. The 2DPN uses multiple converging fluid inlets to control the arrival time of ea  ...[more]

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