Add to ORKGThrough confocal-like microparticle image velocimetry experiments, we reconstruct, for the first time, the three-dimensional flow field structure of the azimuthal fluid recirculation in a sessile drop induced by asymmetric surface acoustic wave radiation, which, in previous two-dimensional planar studies, has been shown to be a powerful mechanism for driving inertial microcentrifugation for micromixing and particle concentration. Supported through finite element simulations, these insights into the three-dimensional flow field provide valuable information on the mechanisms by which particles suspended in the flow collect in a stack at a central position on the substrate at the bottom of the drop once they are convected by the fluid to the b...
A rapid particle concentration method in a sessile droplet has been developed using asymmetric surfa...
Printing highly viscous ink through small nozzle(s) is limited because of the clogging problem. Part...
In this work, we demonstrate the possibility of focusing a stream of microparticles to generate a ma...
Particle concentration via acoustically driven microcentrifugation: microPIV flow visualizatio
We investigate the aggregation of a dense suspension of particles (volume fraction, φ∼0.1 ) in a P...
The concentration and indeed mixing of particle suspensions are important procedures in microfluidic...
We report the use of focused surface acoustic waves (SAWs) generated on 128° rotated Y -cut X -propa...
Accumulation of particles in a high concentration on a microchannel wall is a common phenomenon in a...
This study reports on the breaking up of droplets which can be manipulated with acoustic fields. The...
Funder: china scholarship council; FundRef: https://doi.org/10.13039/501100004543The microfluidic te...
The microfluidic technology based on surface acoustic waves (SAW) has been developing rapidly, as it...
Recently, a novel way of driving rapid microcentrifugation was discovered using ionic wind via ioniz...
Ultrafast particle and cell concentration is essential to the success of subsequent analytical proce...
Lab-on-a-chip systems promise to revolutionise laboratory processes in terms of reduced volumes of a...
Droplets of sizes in the range of micro- to nano-scales found many applications in biomedical indust...
A rapid particle concentration method in a sessile droplet has been developed using asymmetric surfa...
Printing highly viscous ink through small nozzle(s) is limited because of the clogging problem. Part...
In this work, we demonstrate the possibility of focusing a stream of microparticles to generate a ma...
Particle concentration via acoustically driven microcentrifugation: microPIV flow visualizatio
We investigate the aggregation of a dense suspension of particles (volume fraction, φ∼0.1 ) in a P...
The concentration and indeed mixing of particle suspensions are important procedures in microfluidic...
We report the use of focused surface acoustic waves (SAWs) generated on 128° rotated Y -cut X -propa...
Accumulation of particles in a high concentration on a microchannel wall is a common phenomenon in a...
This study reports on the breaking up of droplets which can be manipulated with acoustic fields. The...
Funder: china scholarship council; FundRef: https://doi.org/10.13039/501100004543The microfluidic te...
The microfluidic technology based on surface acoustic waves (SAW) has been developing rapidly, as it...
Recently, a novel way of driving rapid microcentrifugation was discovered using ionic wind via ioniz...
Ultrafast particle and cell concentration is essential to the success of subsequent analytical proce...
Lab-on-a-chip systems promise to revolutionise laboratory processes in terms of reduced volumes of a...
Droplets of sizes in the range of micro- to nano-scales found many applications in biomedical indust...
A rapid particle concentration method in a sessile droplet has been developed using asymmetric surfa...
Printing highly viscous ink through small nozzle(s) is limited because of the clogging problem. Part...
In this work, we demonstrate the possibility of focusing a stream of microparticles to generate a ma...