textFast mixing remains a major challenge in droplet-based microfluidics. The low Reynolds number operating regime typical of most microfluidic devices signify laminar and orderly flows that are devoid of any inertial characteristics. To increase mixing rates in droplet-based devices, a novel technique is presented that uses a high Reynolds number gaseous phase for droplet generation and transport and promotes mixing through binary droplet collisions at velocities near 1m/s. Control of multiple gas and liquid streams is provided by a newly constructed microfluidic test bed that affords the stringent flow stability required for generating liquid droplets in gaseous flows. The result is droplet production with size dispersion and generation f...
This paper reviews work on a microfluidic system that relies on chaotic advection to rapidly mix mul...
Over the last decade, microfluidics has revolutionized our ability to manipulate and control flows i...
Microfluidic technologies open the door to a multitude of novel applications in biological and chemi...
Microfluidics has been used to perform various chemical operations for pL–nL volumes of samples, suc...
In-depth investigations of the kinetics of aqueous chemistry occurring in microdroplet environments ...
In-depth investigations of the kinetics of aqueous chemistry occurring in microdroplet environments ...
We present a novel mixing principle for centrifugal microfluidic platforms. Siphon structures are de...
Droplet-based microfluidic systems have recently been developed to overcome the problems of slow mi...
Nowadays droplet microfluidics is widely used to perform high throughput assays and for the synthesi...
We use a microdevice where microdroplets of reagents are generated and coalesce in a carrier continu...
International audienceThe heating produced by a focused laser has been shown to provide a range of m...
International audienceWe present an experimental study of a new regime of monodisperse micro-droplet...
Droplet-based microfluidic systems enable a variety of biomedical applications from point-of-care di...
Significant efforts have been targeted towards developing a droplet-based microfluidic system and un...
In microfluidics, mixing remains a challenge due to the diffusion-dominated nature of the flows ther...
This paper reviews work on a microfluidic system that relies on chaotic advection to rapidly mix mul...
Over the last decade, microfluidics has revolutionized our ability to manipulate and control flows i...
Microfluidic technologies open the door to a multitude of novel applications in biological and chemi...
Microfluidics has been used to perform various chemical operations for pL–nL volumes of samples, suc...
In-depth investigations of the kinetics of aqueous chemistry occurring in microdroplet environments ...
In-depth investigations of the kinetics of aqueous chemistry occurring in microdroplet environments ...
We present a novel mixing principle for centrifugal microfluidic platforms. Siphon structures are de...
Droplet-based microfluidic systems have recently been developed to overcome the problems of slow mi...
Nowadays droplet microfluidics is widely used to perform high throughput assays and for the synthesi...
We use a microdevice where microdroplets of reagents are generated and coalesce in a carrier continu...
International audienceThe heating produced by a focused laser has been shown to provide a range of m...
International audienceWe present an experimental study of a new regime of monodisperse micro-droplet...
Droplet-based microfluidic systems enable a variety of biomedical applications from point-of-care di...
Significant efforts have been targeted towards developing a droplet-based microfluidic system and un...
In microfluidics, mixing remains a challenge due to the diffusion-dominated nature of the flows ther...
This paper reviews work on a microfluidic system that relies on chaotic advection to rapidly mix mul...
Over the last decade, microfluidics has revolutionized our ability to manipulate and control flows i...
Microfluidic technologies open the door to a multitude of novel applications in biological and chemi...