Issue 1, 2014
From the journal:

Lab on a Chip

Paper-based microfluidics with an erodible polymeric bridge giving controlled release and timed flow shutoff

Sana Jahanshahi-Anbuhi,a   Aleah Henry,a   Vincent Leung,a   Clémence Sicard,b   Kevin Pennings,a   Robert Pelton,a   John D. Brennan*b  and  Carlos D. M. Filipe*a  

* Corresponding authors

a Department of Chemical Engineering, McMaster University, 1280 Main Street West, Hamilton, ON L8S 4M1, Canada
E-mail: filipec@mcmaster.ca
Fax: +1 905 521 1350
Tel: +1 905 525 9140 (ext. 27278)

b Department of Chemistry & Chemical Biology, McMaster University, 1280 Main Street West, Hamilton, ON L8S 4M1, Canada
E-mail: brennanj@mcmaster.ca
Tel: +1 905 525 9140 (ext. 20682)

Abstract

Water soluble pullulan films were formatted into paper-based microfluidic devices, serving as a controlled time shutoff valve. The utility of the valve was demonstrated by a one-step, fully automatic implementation of a complex pesticide assay requiring timed, sequential exposure of an immobilized enzyme layer to separate liquid streams. Pullulan film dissolution and the capillary wicking of aqueous solutions through the device were measured and modeled providing valve design criteria. The films dissolve mainly by surface erosion, meaning the film thickness mainly controls the shutoff time. This method can also provide time-dependent sequential release of reagents without compromising the simplicity and low cost of paper-based devices.

Graphical abstract: Paper-based microfluidics with an erodible polymeric bridge giving controlled release and timed flow shutoff

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Article information

DOI
https://doi.org/10.1039/C3LC50762A
Article type
Paper
Submitted
25 Jun 2013
Accepted
03 Oct 2013
First published
04 Oct 2013

Lab Chip, 2014,14, 229-236

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Paper-based microfluidics with an erodible polymeric bridge giving controlled release and timed flow shutoff

S. Jahanshahi-Anbuhi, A. Henry, V. Leung, C. Sicard, K. Pennings, R. Pelton, J. D. Brennan and C. D. M. Filipe, Lab Chip, 2014, 14, 229 DOI: 10.1039/C3LC50762A

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