Add to ORKGA continuous microfluidic mixer utilizing pulsatile flow micropumps has been created using an SOI process. While MEMS mixers, pumps, and valves have previously existed, this work presents an integrated, planar system utilizing novel mixing, valving, and bonding processes in order to deliver well mixed fluids at controllable flow rates
In this paper, numerical analysis and experimental investigation of a micromixer, which was specific...
Microsystems technology is a rapidly expanding area that comprises electronics, mechanics and optics...
Abstract−A mixing device composed of a micron scale flow channel was applied as a continuous reactor...
This paper begins with a survey of both passive and active microfluidic mixers that have been implem...
Five fluidic characterization methods were used to evaluate the performance of a complete pulsatile-...
We report a self-contained microfluidic alternate flow injection mixer (AFIM) employing piezoelectri...
Micromixing is a crucial process within microfluidic systems such as micro total analysis systems (?...
We present a continuous-flow active micromixer based on channel-wall deflection in a polydimethylsil...
Based on a previously developed microperistaltic pump[1], a micromixer made out of dielectric stack ...
This paper presents a microfluidic mixing module array developed for bio-fluid/chemical delivery and...
This paper presents a microfluidic mixing module array developed for bio-fluid/chemical delivery and...
Mixing and dilutions are processes to combine or putting together one or more reagents such as biomo...
Microfluidic devices based on the multilayer soft lithography allow accurate manipulation of liquids...
Microfluidic devices based on the multilayer soft lithography allow accurate manipulation of liquids...
Mixing liquids on the micro-scale is difficult because the low Reynolds numbers in microchannels and...
In this paper, numerical analysis and experimental investigation of a micromixer, which was specific...
Microsystems technology is a rapidly expanding area that comprises electronics, mechanics and optics...
Abstract−A mixing device composed of a micron scale flow channel was applied as a continuous reactor...
This paper begins with a survey of both passive and active microfluidic mixers that have been implem...
Five fluidic characterization methods were used to evaluate the performance of a complete pulsatile-...
We report a self-contained microfluidic alternate flow injection mixer (AFIM) employing piezoelectri...
Micromixing is a crucial process within microfluidic systems such as micro total analysis systems (?...
We present a continuous-flow active micromixer based on channel-wall deflection in a polydimethylsil...
Based on a previously developed microperistaltic pump[1], a micromixer made out of dielectric stack ...
This paper presents a microfluidic mixing module array developed for bio-fluid/chemical delivery and...
This paper presents a microfluidic mixing module array developed for bio-fluid/chemical delivery and...
Mixing and dilutions are processes to combine or putting together one or more reagents such as biomo...
Microfluidic devices based on the multilayer soft lithography allow accurate manipulation of liquids...
Microfluidic devices based on the multilayer soft lithography allow accurate manipulation of liquids...
Mixing liquids on the micro-scale is difficult because the low Reynolds numbers in microchannels and...
In this paper, numerical analysis and experimental investigation of a micromixer, which was specific...
Microsystems technology is a rapidly expanding area that comprises electronics, mechanics and optics...
Abstract−A mixing device composed of a micron scale flow channel was applied as a continuous reactor...