Add to ORKGAdvances in silicon processing and micro-machining now allow the consistent manufacture of micro- and nanoscale features necessary for the production of controlled roughness superhydrophobic surfaces. Superhydrophobic surfaces combine roughness features with low surface energy to create materials with substantially decreased wettability and, subsequently, reduced hydrodynamic drag. Thus, they represent a promising technology for reducing microchannel flow resistance; a major technical issue in microfluidic systems. There are, however, limits to the pressure a superhydrophobic surface can support before irreversible wetting transition occurs, leading to a loss of the drag-reducing effect. Of greater importance are preliminary observations th...
Superhydrophobic surfaces combine high aspect ratio micro- or nano-topography and hydrophobic surfac...
textAs the fluidic devices are miniaturized to improve portability, the friction of the microchannel...
In this paper, we present an inexpensive technique to produce superhydrophobic surfaces from porous ...
The integration and use of superhydrophobic surfaces to microfluidic systems were investigated in th...
The integration and use of superhydrophobic surfaces to microfluidic systems were investigated in th...
The integration and use of superhydrophobic surfaces to microfluidic systems were investigated in th...
An understanding of transport phenomena in microscale and nanoscale channels is critical for a varie...
Frictional resistance reduction of liquid flow over surfaces has recently become a more important to...
With the miniaturisation and increasing power density of electronic devices and energy systems, incr...
Properties of superhydrophobic materials are examined in light of their possible use for drag reduct...
Enabled by a technology to fabricate well-defined nanogrates over a large area (2x2 cm(2)), we repor...
peer-reviewedThe unique wetting properties of superhydrophobic (SH) surfaces have attracted a consi...
Enabled by a technology to fabricate well-defined nanogrates over a large area (2x2 cm(2)), we repor...
In microreactors and lab-on-a-chip devices it is often important to heat a liquid above ambient temp...
With the miniaturized of mechanical technology and the increasingly wide use of microfluidic devices...
Superhydrophobic surfaces combine high aspect ratio micro- or nano-topography and hydrophobic surfac...
textAs the fluidic devices are miniaturized to improve portability, the friction of the microchannel...
In this paper, we present an inexpensive technique to produce superhydrophobic surfaces from porous ...
The integration and use of superhydrophobic surfaces to microfluidic systems were investigated in th...
The integration and use of superhydrophobic surfaces to microfluidic systems were investigated in th...
The integration and use of superhydrophobic surfaces to microfluidic systems were investigated in th...
An understanding of transport phenomena in microscale and nanoscale channels is critical for a varie...
Frictional resistance reduction of liquid flow over surfaces has recently become a more important to...
With the miniaturisation and increasing power density of electronic devices and energy systems, incr...
Properties of superhydrophobic materials are examined in light of their possible use for drag reduct...
Enabled by a technology to fabricate well-defined nanogrates over a large area (2x2 cm(2)), we repor...
peer-reviewedThe unique wetting properties of superhydrophobic (SH) surfaces have attracted a consi...
Enabled by a technology to fabricate well-defined nanogrates over a large area (2x2 cm(2)), we repor...
In microreactors and lab-on-a-chip devices it is often important to heat a liquid above ambient temp...
With the miniaturized of mechanical technology and the increasingly wide use of microfluidic devices...
Superhydrophobic surfaces combine high aspect ratio micro- or nano-topography and hydrophobic surfac...
textAs the fluidic devices are miniaturized to improve portability, the friction of the microchannel...
In this paper, we present an inexpensive technique to produce superhydrophobic surfaces from porous ...