Journal ArticleDOI
Recent developments in PDMS surface modification for microfluidic devices
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TLDR
This review will present recent research on surface modifications of PDMS using techniques ranging from metal layer coatings and layer‐by‐layer depositions to dynamic surfactant treatments and the adsorption of amphipathic proteins.Abstract:
PDMS is enjoying continued and ever increasing popularity as the material of choice for microfluidic devices due to its low cost, ease of fabrication, oxygen permeability and optical transparency. However, PDMS's hydrophobicity and fast hydrophobic recovery after surface hydrophilization, attributed to its low glass transition temperature of less than -120 degrees C, negatively impacts on the performance of PDMS-based microfluidic device components. This issue has spawned a flurry of research to devise longer lasting surface modifications of PDMS, with particular emphasis on microfluidic applications. This review will present recent research on surface modifications of PDMS using techniques ranging from metal layer coatings and layer-by-layer depositions to dynamic surfactant treatments and the adsorption of amphipathic proteins. We will also discuss significant advances that have been made with a broad palette of gas-phase processing methods including plasma processing, sol-gel coatings and chemical vapor deposition. Finally, we will present examples of applications and future prospects of modified PDMS surfaces in microfluidics, in areas such as molecular separations, cell culture in microchannels and biomolecular detection via immunoassays.read more
Citations
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Journal ArticleDOI
Advanced micromachining of concave microwells for long term on-chip culture of multicellular tumor spheroids.
TL;DR: Homogeneous multicellular spheroids were efficiently formed in the concave microwells and on-chip drug assays could be reliably carried out using curcumin as a model anti-cancer drug.
Journal ArticleDOI
Preparation, characterization, and silanization of 3D microporous PDMS structure with properly sized pores for endothelial cell culture.
TL;DR: This study offers a simple and cost‐efficient technique for creating three‐dimensional (3D) microporous PDMS structure with appropriate pore size for endothelial cell culture and the fabricated matrix can perfectly be applied to future studies in blood‐contacting devices.
Journal ArticleDOI
Hypoxia-enhanced adhesion of red blood cells in microscale flow.
Myeongseop Kim,Yunus Alapan,Yunus Alapan,Anima Adhikari,Jane A. Little,Jane A. Little,Umut A. Gurkan +6 more
TL;DR: A micro‐gas exchanger integrated with microfluidics is presented to study RBC adhesion under hypoxic flow conditions mimicking postcapillary venules to study the role of oxygen tension and fluid flow in microcirculation.
Journal ArticleDOI
Simple and improved approaches to long-lasting, hydrophilic silicones derived from commercially available precursors.
TL;DR: Silicones without D units are promising materials with intrinsically low hydrophobic recovery characteristics and long-lasting hydrophilicity after oxygen plasma treatment, and unlike polydimethylsiloxane-based silicones, Q(V)Q(H) does not contain equilibration products of the Dn-type; its thin films perform as well as those of Sylgard and D(V).
Journal ArticleDOI
Silicate glass coated microchannels through a phase conversion process for glass-like electrokinetic performance
Ming Li,Dong-Pyo Kim +1 more
TL;DR: A facile approach to preparing a silicate glass modified PDMS microchannel for glass-like performance is presented and it allows easy regeneration of the electrokinetic behavior, just as in a glass channel, by a simple treatment with alkali solution.
References
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Journal ArticleDOI
Solvent compatibility of poly(dimethylsiloxane)-based microfluidic devices.
TL;DR: This paper describes the compatibility of poly(dimethylsiloxane) (PDMS) with organic solvents; this compatibility is important in considering the potential of PDMS-based microfluidic devices in a number of applications, including that of microreactors for organic reactions.
Journal ArticleDOI
Characterization of polydimethylsiloxane (PDMS) properties for biomedical micro/nanosystems.
TL;DR: PDMS surface hydrophilicity and micro-textures were generally unaffected when exposed to the different chemicals, except for micro-texture changes after immersion in potassium hydroxide and buffered hydrofluoric, nitric, sulfuric, and hydrofluic acids.
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Integrated microfluidic devices
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TL;DR: In this paper, the authors provide an in-depth look at the state-of-the-art in integrated microfludic devices for a broad range of application areas from on-chip DNA analysis, immunoassays and cytometry to advances in integrated detection technologies for and miniaturized fuel processing devices.