Add to ORKGThe ability to drive efficient micromixing on a microfluidic platform is crucial for a wide range of lab-on-a-chip applications. Here, we investigate the ability of acoustic waves generated on different geometric surfaces (concave and convex) to enhance the micromixing efficiency in droplet acoustomicrofluidic systems, and, concomitantly, to reduce the power consumption in these devices for a given performance requirement. Quite counterintuitively, we observe that although the acoustic streaming velocity, which scaled inversely with the droplet size, tended to be generally lower (by approximately 45%) when the flow is generated by transducers with convex surfaces compared to those with concave surfaces, the mixing efficiency is disproportio...
We demonstrate that surface acoustic waves (SAWs), nanometer amplitude Rayleigh waves driven at mega...
In the micro- and nano-fluidics field, the mixing of droplets is a difficult challenge. This functio...
In this paper, we introduce a parallel microdroplet mixing strategy based on local acoustic field ge...
Ultrasonic waves generated by piezoelectric devices produce forces on fluids and particles that can ...
Abstract Acoustic streaming can be generated in microchannels by low-frequency acoust...
Fifteen years ago, surface acoustic waves (SAW) were found to be able to drive fluids and numerous a...
This work describes a study on the acoustic streaming phenomenon, for promoting mixing in microflui...
An acoustic mixer for glass channel microfluidic systems is presented. An acoustic standing wave, pe...
We introduce an approach and describe the process of acoustically driven formation of droplets in a ...
This paper reports the modelling and simulation of the acoustic streaming phenomenon, generated by a...
The ability to drive microcentrifugation for efficient micromixing and particle concentration and se...
This paper reports a numerical and experimental study of acoustic streaming and micromixing in polyd...
The concentration and indeed mixing of particle suspensions are important procedures in microfluidic...
Recent research has shown that interactions between acoustic waves and microfluidic channels can gen...
Lab-on-a-chip and micro-total-analysis systems are vital analytical tools used in both the biotechno...
We demonstrate that surface acoustic waves (SAWs), nanometer amplitude Rayleigh waves driven at mega...
In the micro- and nano-fluidics field, the mixing of droplets is a difficult challenge. This functio...
In this paper, we introduce a parallel microdroplet mixing strategy based on local acoustic field ge...
Ultrasonic waves generated by piezoelectric devices produce forces on fluids and particles that can ...
Abstract Acoustic streaming can be generated in microchannels by low-frequency acoust...
Fifteen years ago, surface acoustic waves (SAW) were found to be able to drive fluids and numerous a...
This work describes a study on the acoustic streaming phenomenon, for promoting mixing in microflui...
An acoustic mixer for glass channel microfluidic systems is presented. An acoustic standing wave, pe...
We introduce an approach and describe the process of acoustically driven formation of droplets in a ...
This paper reports the modelling and simulation of the acoustic streaming phenomenon, generated by a...
The ability to drive microcentrifugation for efficient micromixing and particle concentration and se...
This paper reports a numerical and experimental study of acoustic streaming and micromixing in polyd...
The concentration and indeed mixing of particle suspensions are important procedures in microfluidic...
Recent research has shown that interactions between acoustic waves and microfluidic channels can gen...
Lab-on-a-chip and micro-total-analysis systems are vital analytical tools used in both the biotechno...
We demonstrate that surface acoustic waves (SAWs), nanometer amplitude Rayleigh waves driven at mega...
In the micro- and nano-fluidics field, the mixing of droplets is a difficult challenge. This functio...
In this paper, we introduce a parallel microdroplet mixing strategy based on local acoustic field ge...