One-step surface modification of poly(dimethylsiloxane) by undecylenic acid
Date
2008
Authors
Zhou, J.
McInnes, S.J.P.
Jani, A.M.
Ellis, A.
Voelcker, N.
Editors
Voelcker, N.H.
Thissen, H.W.
Thissen, H.W.
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
Conference paper
Citation
Proceedings of SPIE, 2008 / Voelcker, N.H., Thissen, H.W. (ed./s), vol.7267, pp.726719:1-726719:10
Statement of Responsibility
Conference Name
The International Society for Optical Engineering Conference (10 Dec 2008 - 12 Dec 2008 : Melbourne)
Abstract
Poly(dimethylsiloxane) (PDMS) is a popular material for microfluidic devices due to its relatively low cost, ease of fabrication, oxygen permeability and optical transmission characteristics. However, its highly hydrophobic surface is still the main factor limiting its wide application, in particular as a material for biointerfaces. A simple and rapid method to form a relatively stable hydrophilised PDMS surface is reported in this paper. The PDMS surface was treated with pure undecylenic acid (UDA) for 10 min, 1 h and 1 day at 80 ºC in a sealed container. The effects of the surface modification were investigated using water contact angle (WCA) measurements, Fourier transform infrared spectroscopy in attenuated total reflection mode (FTIR-ATR), and streaming zeta-potential analysis. The water contact angle of 1 day UDAmodified PDMS was found to decrease from that of native PDMS (110 º) to 75 º, demonstrating an increase in wettability of the surface. A distinctive peak at 1715 cm-1 in the FTIR-ATR spectra after UDA treatment was representative of carboxylation of the PDMS surface. The measured zeta-potential (ζ) at pH 4 changed from -27 mV for pure PDMS to -19 mV after UDA treatment. In order to confirm carboxylation of the surface visually, Lucifer Yellow CH fluorescence dye was reacted via a condensation reaction to the 1 day UDA modified PDMS surface. Fluorescent microscopy showed Lucifer Yellow CH fluorescence on the carboxylated surface, but not on the pure PDMS surface. Stability experiments were also performed showing that 1 day modified UDA samples were stable in both MilliQ water at 50 ºC for 17 h, and in a desiccator at room temperature for 19.5 h.
School/Discipline
Dissertation Note
Provenance
Description
Access Status
Rights
Copyright 2008 SPIE