Add to ORKGWe have experimentally measured flow rates of water through hydrophilic and hydrophobic single pipes with diameters ranging from 10 $\mu$m to 200 nm. We developed a method of coating the pipes with a hydrophobic polymer roughly 2 nm thick and verified the hydrophobic nature of the pipes after treatment. The exact diameters of the tubes were measured using a gaseous flow impedance test or imaged directly via scanning electron microscopy. The flow rates through both the hydrophobic and hydrophilic pipes agree with theory for viscous Poiseuille flow and are effectively indistinguishable from each other
We employ microparticle image velocimetry to investigate laminar microflows in hydrophobic microstru...
We present an approach for measuring the water flow rate through individual ultralong carbon nanotub...
We present an approach for measuring the water flow rate through individual ultralong carbon nanotub...
We have experimentally measured flow rates of water through hydrophilic and hydrophobic single pipes...
The work presented in this thesis represents two research projects which, simply put, both explore t...
The work presented in this thesis represents two research projects which, simply put, both explore t...
A simple technique to simultaneously induce fluid flow through an individual nanopipe and measure th...
We experimentally explore pressure driven flow of water and n hexane across nanoporous silica Vycor...
We experimentally explore pressure driven flow of water and n hexane across nanoporous silica Vycor...
We experimentally explore pressure driven flow of water and n hexane across nanoporous silica Vycor...
A simple technique to simultaneously induce fluid flow through an individual nanopipe and measure th...
An investigation into the effects of hydrophobic and hydrophilic surfaces on fluid flow. With hydrop...
Water is ubiquitous; the science of its transport in micro- and nanochannels has applications in ele...
The branch of fluid mechanics is also familiar with biomechanics recently. The combination of hydrod...
We employ microparticle image velocimetry to investigate laminar microflows in hydrophobic microstru...
We employ microparticle image velocimetry to investigate laminar microflows in hydrophobic microstru...
We present an approach for measuring the water flow rate through individual ultralong carbon nanotub...
We present an approach for measuring the water flow rate through individual ultralong carbon nanotub...
We have experimentally measured flow rates of water through hydrophilic and hydrophobic single pipes...
The work presented in this thesis represents two research projects which, simply put, both explore t...
The work presented in this thesis represents two research projects which, simply put, both explore t...
A simple technique to simultaneously induce fluid flow through an individual nanopipe and measure th...
We experimentally explore pressure driven flow of water and n hexane across nanoporous silica Vycor...
We experimentally explore pressure driven flow of water and n hexane across nanoporous silica Vycor...
We experimentally explore pressure driven flow of water and n hexane across nanoporous silica Vycor...
A simple technique to simultaneously induce fluid flow through an individual nanopipe and measure th...
An investigation into the effects of hydrophobic and hydrophilic surfaces on fluid flow. With hydrop...
Water is ubiquitous; the science of its transport in micro- and nanochannels has applications in ele...
The branch of fluid mechanics is also familiar with biomechanics recently. The combination of hydrod...
We employ microparticle image velocimetry to investigate laminar microflows in hydrophobic microstru...
We employ microparticle image velocimetry to investigate laminar microflows in hydrophobic microstru...
We present an approach for measuring the water flow rate through individual ultralong carbon nanotub...
We present an approach for measuring the water flow rate through individual ultralong carbon nanotub...