Bicomponent Cellulose Fibrils and Minerals Afford Wicking Channels Stencil-Printed on Paper for Rapid and Reliable Fluidic Platforms

Katariina Solin; Maryam Borghei; Monireh Imani; Tero Kämäräinen; Kaisa Kiri; Tapio Mäkelä; Alexey Khakalo; Hannes Orelma; Patrick A.C. Gane; Orlando J. Rojas

doi:https://doi.org/10.1021/acsapm.1c00856

doi.org/10.1021/acsapm.1c00856

Bicomponent Cellulose Fibrils and Minerals Afford Wicking Channels Stencil-Printed on Paper for Rapid and Reliable Fluidic Platforms

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..., Orlando J. Rojas

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ACS Applied Polymer Materials5.00

Volume: 3, Issue: 11, Pages: 5536 - 5546

Published: Oct 5, 2021

Abstract

Flexible and easy-to-use microfluidic systems are suitable options for point-of-care diagnostics. Here, we investigate liquid transport in fluidic channels produced by stencil printing on flexible substrates as a reproducible and scalable option for diagnostics and paper-based sensing. Optimal printability and flow profiles were obtained by combining minerals with cellulose fibrils of two different characteristic dimensions, in the nano- and...

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Paper Details

Title

Bicomponent Cellulose Fibrils and Minerals Afford Wicking Channels Stencil-Printed on Paper for Rapid and Reliable Fluidic Platforms

DOI

doi.org/10.1021/acsapm.1c00856

Published Date

Oct 5, 2021

Journal

ACS Applied Polymer Materials

Volume

3

Issue

11

Pages

5536 - 5546

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