Add to ORKGThis paper demonstrates several enhanced microfluidic functions achieved by integrating two different micro droplet actuation systems (Surface Acoustic Waves (SAW) and ElectroWetting-On-Dielectric (EWOD)). The paper reports how SAW can be employed to help EWOD create and split droplets by augmenting the EWOD force to complete the operation. It also demonstrates how EWOD can be used to guide and precisely position microdroplets for further efficient SAW actuated movement (pumping), concentration and ejection of droplets. The paper also highlights how this combination can also be employed to position droplets for shear wave SAW sensing
International audienceThe capability to accurately handle liquids in small volumes is a key point fo...
This paper presents an analytical model for surface acoustic waves (SAW) in actuating a single liqui...
Though uncommon in most microfluidic systems due to the dominance of viscous and capillary stresses,...
This paper demonstrates several enhanced microfluidic functions achieved by integrating two differen...
This paper presents integrated microfluidiclab-on-a-chip technology combining surface acoustic wave(...
In recent years, the high intensity surface acoustic wave (SAW) generated by interdigital transducer...
Microfluidics, the study of fluid flow at the sub-millimetre scale, is an enabling technology that o...
In recent years, surface acoustic wave (SAW) that were generated by interlocking patterns of the int...
This paper details the first reported integration of two advanced digital microfluidic technologies ...
This paper presents details of the design and fabrication of test structures specifically designed f...
This paper presents a systematic overview on the recent works on surface acoustic wave (SAW) driven ...
This paper presents details of the design and fabrication of test structures specifically designed f...
In recent years, the high intensity surface acoustic wave (SAW) generated by interdigital tr...
This paper presents details of the design and fabrication of test structures specifically designed f...
We introduce an approach and describe the process of acoustically driven formation of droplets in a ...
International audienceThe capability to accurately handle liquids in small volumes is a key point fo...
This paper presents an analytical model for surface acoustic waves (SAW) in actuating a single liqui...
Though uncommon in most microfluidic systems due to the dominance of viscous and capillary stresses,...
This paper demonstrates several enhanced microfluidic functions achieved by integrating two differen...
This paper presents integrated microfluidiclab-on-a-chip technology combining surface acoustic wave(...
In recent years, the high intensity surface acoustic wave (SAW) generated by interdigital transducer...
Microfluidics, the study of fluid flow at the sub-millimetre scale, is an enabling technology that o...
In recent years, surface acoustic wave (SAW) that were generated by interlocking patterns of the int...
This paper details the first reported integration of two advanced digital microfluidic technologies ...
This paper presents details of the design and fabrication of test structures specifically designed f...
This paper presents a systematic overview on the recent works on surface acoustic wave (SAW) driven ...
This paper presents details of the design and fabrication of test structures specifically designed f...
In recent years, the high intensity surface acoustic wave (SAW) generated by interdigital tr...
This paper presents details of the design and fabrication of test structures specifically designed f...
We introduce an approach and describe the process of acoustically driven formation of droplets in a ...
International audienceThe capability to accurately handle liquids in small volumes is a key point fo...
This paper presents an analytical model for surface acoustic waves (SAW) in actuating a single liqui...
Though uncommon in most microfluidic systems due to the dominance of viscous and capillary stresses,...