Add to ORKGIn this paper, we demonstrate fabrication and characterization of a nanofluidic channel with embedded transverse nanoelectrodes using a combination of conventional photolithography and focused ion beam technologies. Glass-capped silicon dioxide nanochannels having 20 nm depth, 50 nm width, and 2 m length with embedded platinum nanoelectrodes were fabricated. Channel patency was verified through measurements of the resistivity in phosphate buffered saline and electrostatic action on charged fluorescent nanospheres. Platinum nanoelectrode functionality was also tested using transverse resistance measurements in nanochannels filled w...
Using surface micromachining technology, we fabricated nanofluidic devices with channels down to 10̂...
AbstractSilica nanofluidic channels with 50 nm height were fabricated on glass substrates. A PDMS mi...
This thesis describes research conducted on the physics and applications of micro- andnanoscale ion-...
In this paper, we demonstrate fabrication and characterization of a nanofluidic channel with embedde...
Nanofluidics is the study on the behavior of fluid flow in a nanoscale-confined channel with at leas...
Nanofluidics is the science and technology involving a fluid flowing in or around structures with a ...
We report on the fabrication of microfluidc-nanofluidic channels on Si incorporated with embedded me...
An easy method for fabricating micro- and nanofluidic channels, entirely made of a thermally grown s...
A silicon nanochannel system with integrated transverse electrodes was designed and fabricated by co...
A silicon nanochannel system with integrated transverse electrodes was designed and fabricated by co...
A silicon nanochannel system with integrated transverse electrodes was designed and fabricated by co...
Nature has inspired the fabrication of intelligent devices to meet the needs of the advanced communi...
A silicon nanochannel system with integrated transverse electrodes was designed and fabricated by co...
International audienceNanofluidics show great promise for the control of small volumes and single mo...
The most important motivation of this thesis is study the viscosity of water in confined nanospaces ...
Using surface micromachining technology, we fabricated nanofluidic devices with channels down to 10̂...
AbstractSilica nanofluidic channels with 50 nm height were fabricated on glass substrates. A PDMS mi...
This thesis describes research conducted on the physics and applications of micro- andnanoscale ion-...
In this paper, we demonstrate fabrication and characterization of a nanofluidic channel with embedde...
Nanofluidics is the study on the behavior of fluid flow in a nanoscale-confined channel with at leas...
Nanofluidics is the science and technology involving a fluid flowing in or around structures with a ...
We report on the fabrication of microfluidc-nanofluidic channels on Si incorporated with embedded me...
An easy method for fabricating micro- and nanofluidic channels, entirely made of a thermally grown s...
A silicon nanochannel system with integrated transverse electrodes was designed and fabricated by co...
A silicon nanochannel system with integrated transverse electrodes was designed and fabricated by co...
A silicon nanochannel system with integrated transverse electrodes was designed and fabricated by co...
Nature has inspired the fabrication of intelligent devices to meet the needs of the advanced communi...
A silicon nanochannel system with integrated transverse electrodes was designed and fabricated by co...
International audienceNanofluidics show great promise for the control of small volumes and single mo...
The most important motivation of this thesis is study the viscosity of water in confined nanospaces ...
Using surface micromachining technology, we fabricated nanofluidic devices with channels down to 10̂...
AbstractSilica nanofluidic channels with 50 nm height were fabricated on glass substrates. A PDMS mi...
This thesis describes research conducted on the physics and applications of micro- andnanoscale ion-...