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Author

Soper, Steven A.
Soper Research Group
Research Interests
  • Micro- and nano-fabrication

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Surface Modification of Droplet Polymeric Microfluidic Devices for the Stable and Continuous Generation of Aqueous Droplets

Cited 6 times inthomson ciCited 8 times inthomson ci
Title
Surface Modification of Droplet Polymeric Microfluidic Devices for the Stable and Continuous Generation of Aqueous Droplets
Author
Subramanian, BalamuruganKim, NamwonLee, WonbaeSpivak, David A.Nikitopoulos, Dimitris E.McCarley, Robin L.Soper, Steven A.
Keywords
Angle resolved x ray photoelectron spectroscopy; Aqueous droplets; Carrier fluids; Channel wall; Cover plate; Droplet microfluidics; Hexadecane; Hydrophobic carriers; Hydrophobic surfaces; Hydroxyl groups; Liquid-liquids; Micro-fluidic devices; Microfluidic chip; Olefin copolymers; Oxygen plasma treatments; Polymer surfaces; Polymeric microfluidic devices; Segmented flow; Surface selectivity; Surface-modification; Thermoplastic materials; Trichlorosilanes; Two-step procedure; Wall surfaces; Water droplets; Wetting problems
Issue Date
201106
Publisher
AMER CHEMICAL SOC
Citation
LANGMUIR, v.27, no.12, pp.7949 - 7957
Abstract
Droplet microfluidics performed in poly(methyl methacrylate) (PMMA) microfluidic devices resulted in significant wall wetting by water droplets formed in a liquid liquid segmented flow when using a hydrophobic carrier fluid such as perfluorotripropylamine (FC-3283). This wall wetting led to water droplets with nonuniform sizes that were often trapped on the wall surfaces, leading to unstable and poorly controlled liquid liquid segmented flow. To circumvent this problem, we developed a two-step procedure to hydrophobically modify the surfaces of PMMA and other thermoplastic materials commonly used to make microfluidic devices. The surface-modification route involved the introduction of hydroxyl groups by oxygen plasma treatment of the polymer surface followed by a solution-phase reaction with heptadecafluoro-1,1,2,2-tetrahydrodecyl trichlorosilane dissolved in fluorocarbon solvent FC-3283. This procedure was found to be useful for the modification of PMMA and other thermoplastic surfaces, including polycyclic olefin copolymer (COC) and polycarbonate (PC). Angle-resolved X-ray photoelectron spectroscopy indicated that the fluorination of these polymers took place with high surface selectivity. This procedure was used to modify the surface of a PMMA droplet microfluidic device (DMFD) and was shown to be useful in reducing the wetting problem during the generation of aqueous droplets in a perfluorotripropylamine (FC-3283) carrier fluid and could generate stable segmented flows for hours of operation. In the case of PMMA DMFD, oxygen plasma treatment was carried out after the PMMA cover plate was thermally fusion bonded to the PMMA microfluidic chip. Because the appended chemistry to the channel wall created a hydrophobic surface, it will accommodate the use of other carrier fluids that are hydrophobic as well, such as hexadecane or mineral oils.
URI
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DOI
http://dx.doi.org/10.1021/la200298n
ISSN
0743-7463
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