Add to ORKGIn this research I developed a new form of microfluidic transport technique that exploits electrokinetic phenomena in discrete micro and nanometer sized wells. Through the use of these "Electroactive Nanowells", I have been able to demonstrate the reversible trapping of micro and nanoscale objects in discrete locations, enabled a new form of microfluidic memory and used a modified version of this technique to generate a wireless drug delivery system for the control of flying insects. The outcome of this research is threefold: First, it establishes a low power device that can increase the speed of traditional microwell screening techniques by four orders of magnitude in an easy to fabricate setup. The second outcome is the development of the...
We report an electro-nanofluidic membrane for tunable, ultra-low power drug delivery employing an io...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
Investigating biological and synthetic nanoscopic species in liquids, at the ultimate resolution of ...
Today, the growing and aging population, and the rise of new global threats on human health puts an ...
The authors describe electroactive microwells which exploit highly localized electrokinetic effects ...
This thesis research aims at advancing our understanding of the coupled electric and hydrodynamic pr...
Microelectrode arrays are increasingly used in a wide variety of situations in the medical device se...
Electrowetting technique is an actuation method for manipulating position and velocity of fluids in ...
Motivated by the desire to analyze individual cells, the objective of this research is the design, f...
Many researchers in the biological and chemical field have been using microfluidic technologies in m...
This paper reports an optofluidic architecture which enables reversible trapping, detection and long...
Transdermal delivery has emerged as an attractive drug administration approach. A soft flexible tran...
General adoption of advanced treatment protocols such as chronotherapy will hinge on progress in dru...
Microfluidics or lab on chip technology, has developed itself significantly during the past 25 years...
Using surface micromachining technology, we fabricated nanofluidic devices with channels down to 10̂...
We report an electro-nanofluidic membrane for tunable, ultra-low power drug delivery employing an io...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
Investigating biological and synthetic nanoscopic species in liquids, at the ultimate resolution of ...
Today, the growing and aging population, and the rise of new global threats on human health puts an ...
The authors describe electroactive microwells which exploit highly localized electrokinetic effects ...
This thesis research aims at advancing our understanding of the coupled electric and hydrodynamic pr...
Microelectrode arrays are increasingly used in a wide variety of situations in the medical device se...
Electrowetting technique is an actuation method for manipulating position and velocity of fluids in ...
Motivated by the desire to analyze individual cells, the objective of this research is the design, f...
Many researchers in the biological and chemical field have been using microfluidic technologies in m...
This paper reports an optofluidic architecture which enables reversible trapping, detection and long...
Transdermal delivery has emerged as an attractive drug administration approach. A soft flexible tran...
General adoption of advanced treatment protocols such as chronotherapy will hinge on progress in dru...
Microfluidics or lab on chip technology, has developed itself significantly during the past 25 years...
Using surface micromachining technology, we fabricated nanofluidic devices with channels down to 10̂...
We report an electro-nanofluidic membrane for tunable, ultra-low power drug delivery employing an io...
The microfluidic field involves the use of microstructured devices that typically have micrometer si...
Investigating biological and synthetic nanoscopic species in liquids, at the ultimate resolution of ...