ETC 1. Journal Articles
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dc.contributor.author Lim, Heejin -
dc.contributor.author Moon, SangJun -
dc.date.available 2017-07-05T08:49:23Z -
dc.date.created 2017-04-10 -
dc.date.issued 2015-08 -
dc.identifier.issn 1387-2176 -
dc.identifier.uri http://hdl.handle.net/20.500.11750/2338 -
dc.description.abstract Applications of microfluidic devices fabricated in poly(dimethylsiloxane) (PDMS) have been limited to water-based analysis rather than nonpolar solvent based chemistry due to a PDMS swelling problem that occurs by the absorption of the solvents. The absorption and swelling causes PDMS channel deformation in shape, and changes the cross sectional area making it difficult to control the flow rate and concentrations of solution in PDMS microfluidic channels. We propose that poly-p-xylylene polymers (parylenes) are chemical vapors deposited on the surfaces of PDMS channels that alleviate the effect of solvents on the absorption and swelling. The parylene coated surface sustains 3 h with a small volumetric change (less than 22 % of PDMS swelling ratio). By generating an air-nonpolar solvent interface based on droplets in PDMS channel, we confirmed poly-p-xylylene coated PDMS microfluidic channels have the potential to be applicable to nanocrystal growth using nonpolar solvents. -
dc.publisher Springer -
dc.title Stable nonpolar solvent droplet generation using a poly(dimethylsiloxane) microfluidic channel coated with poly-p-xylylene for a nanoparticle growth -
dc.type Article -
dc.identifier.doi 10.1007/s10544-015-9974-5 -
dc.identifier.scopusid 2-s2.0-85006321105 -
dc.identifier.bibliographicCitation Biomedical Microdevices, v.17, no.4, pp.1 - 8 -
dc.subject.keywordAuthor poly-p-xylylene -
dc.subject.keywordAuthor PDMS -
dc.subject.keywordAuthor Microfluidic channel -
dc.subject.keywordAuthor Nanocrystal growth -
dc.subject.keywordAuthor Air-nonpolar solvent interface -
dc.subject.keywordPlus Air-Nonpolar Solvent Interface -
dc.subject.keywordPlus Baysilon -
dc.subject.keywordPlus Chemistry -
dc.subject.keywordPlus DEVICES -
dc.subject.keywordPlus Dimethylpolysiloxanes -
dc.subject.keywordPlus Dimeticone -
dc.subject.keywordPlus Equipment Design -
dc.subject.keywordPlus Immobilization -
dc.subject.keywordPlus Microfluidic Analysis -
dc.subject.keywordPlus Microfluidic Analytical Techniques -
dc.subject.keywordPlus Microfluidic Channel -
dc.subject.keywordPlus Microfluidics -
dc.subject.keywordPlus Nanocrystal Growth -
dc.subject.keywordPlus Nanoparticle -
dc.subject.keywordPlus NANOPARTICLES -
dc.subject.keywordPlus Parylene -
dc.subject.keywordPlus PDMS -
dc.subject.keywordPlus PDMS MICROCHANNELS -
dc.subject.keywordPlus Poly-P-Xylylene -
dc.subject.keywordPlus Polymer -
dc.subject.keywordPlus Polymers -
dc.subject.keywordPlus Proteins -
dc.subject.keywordPlus Silicone Derivative -
dc.subject.keywordPlus Silicones -
dc.subject.keywordPlus SOLVENT -
dc.subject.keywordPlus Solvents -
dc.subject.keywordPlus Surface Modification -
dc.subject.keywordPlus Surface Properties -
dc.subject.keywordPlus Surface Property -
dc.subject.keywordPlus Xylene -
dc.subject.keywordPlus Xylenes -
dc.citation.endPage 8 -
dc.citation.number 4 -
dc.citation.startPage 1 -
dc.citation.title Biomedical Microdevices -
dc.citation.volume 17 -
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