Non-fouling microfluidic chip produced by radio frequency tetraglyme plasma deposition
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posted on 2024-07-11, 13:28 authored by Malinda Salim, Gautam Mishra, Gregory J.S. Fowler, Brian O'Sullivan, Phillip C. Wright, Sally McArthurSally McArthurThis Technical Note presents the direct surface modification of a glass/PTFE hybrid microfluidic chip, via radio frequency glow discharge plasma polymerisation of tetraethlylene glycol dimethylether (tetraglyme), to produce hydrophilic, non-fouling, PEO-like surfaces. We use several techniques including X-ray photoelectron spectroscopy (XPS), direct enzyme-linked immunosorbent assays (ELISA) and immunofluorescent imaging to investigate the channel coatings. Our results indicate the successful deposition of a PEO-like coating onto microchannel surfaces that has both solution and shelf stability (>3 months) and is capable of preventing fibrinogen adsorption to the microchannel surfaces.
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1473-0189Journal title
Lab on a ChipVolume
7Issue
4Pagination
2 ppPublisher
Royal Society of ChemistryCopyright statement
Copyright © 2007 The Royal Society of Chemistry. The authors give the Royal Society of Chemistry the exclusive right and licence throughout the world to edit, adapt, translate, reproduce and publish the Paper in all formats, in all media and by all means (whether now existing or in future devised). The published version is reproduced for non-commercial purposes only in accordance with the copyright policy of the publisher. This paper is made available for personal use only; no further reuse is permitted.Language
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