Meanwhile, electrowetting-on-dielectric (EWOD) is a well-known phenomenon, even often exploited in active micro-optics to change the curvature of microdroplet lenses or in analytical chemistry with digital microfluidics (DMF, lab on a chip 2.0) to move/ actuate microdroplets. Optoelectrowetting (OEW) can bring more flexibility to DMF because in OEW, the operating point of the lab chip is locally controlled by a beam of light, usually impinging onto the chip perpendicularly. As opposed to pure EWOD, for OEW, none of the electrodes has to be structured, which makes the chip design and production technology simpler; the path of any actuated droplet is determined by the movement of the light spot. However, for applications in analytical ch...
The field of lab-on-a-chip offers exciting new capabilities for chemical and biological assays, incl...
This paper presents the integration of two powerful technologies: manipulation of droplets (i.e., di...
We report on a novel principle of actuation of micrometer-sized liquid crystal droplets. It is based...
In traditional electrowetting-on-dielectric (EWOD) devices, droplets are moved about a substrate usi...
Abstract—We have demonstrated a 2-D droplet manipulation platform allowing fully optical manipulatio...
Tunable microoptics deals with devices of which the optical properties can be changed during operati...
A light-actuated microfluidic device has been successfully fabricated to inject, move, separate, and...
We present experimental realization of an open optoelectrowetting (o-OEW) device for liquid droplet ...
This fluid dynamics video showcases how optically induced electrowetting can be used to manipulate l...
Lab-on-a-chip technologies have seen great advances and development over the past few decades in add...
This paper reviews publications that have fortified our understanding of the electrowetting-on-diele...
Initiated by a task in tunable microoptics, but not limited to this application, a microfluidic drop...
The digital microfluidics utilizes the gradient in wettability for droplet transportation. This pape...
We demonstrate a new hybrid optoelectric technique that can manipulate objects across several length...
The digital microfluidics utilizes the gradient in wettability for droplet transportation. This pape...
The field of lab-on-a-chip offers exciting new capabilities for chemical and biological assays, incl...
This paper presents the integration of two powerful technologies: manipulation of droplets (i.e., di...
We report on a novel principle of actuation of micrometer-sized liquid crystal droplets. It is based...
In traditional electrowetting-on-dielectric (EWOD) devices, droplets are moved about a substrate usi...
Abstract—We have demonstrated a 2-D droplet manipulation platform allowing fully optical manipulatio...
Tunable microoptics deals with devices of which the optical properties can be changed during operati...
A light-actuated microfluidic device has been successfully fabricated to inject, move, separate, and...
We present experimental realization of an open optoelectrowetting (o-OEW) device for liquid droplet ...
This fluid dynamics video showcases how optically induced electrowetting can be used to manipulate l...
Lab-on-a-chip technologies have seen great advances and development over the past few decades in add...
This paper reviews publications that have fortified our understanding of the electrowetting-on-diele...
Initiated by a task in tunable microoptics, but not limited to this application, a microfluidic drop...
The digital microfluidics utilizes the gradient in wettability for droplet transportation. This pape...
We demonstrate a new hybrid optoelectric technique that can manipulate objects across several length...
The digital microfluidics utilizes the gradient in wettability for droplet transportation. This pape...
The field of lab-on-a-chip offers exciting new capabilities for chemical and biological assays, incl...
This paper presents the integration of two powerful technologies: manipulation of droplets (i.e., di...
We report on a novel principle of actuation of micrometer-sized liquid crystal droplets. It is based...