Add to ORKGWe demonstrate that the propagation of surface acoustic waves, arising from the excitation of the acoustic field on a piezoelectric crystal (lithium niobate) substrate, along the sidewalls of microchannels (50 μm or 280 μm wide and 200 μm deep) fabricated in the substrate, can give rise to throughflow with velocities of the order 10 mm/s. This streaming flow in the direction along which the surface acoustic wave propagates is a result of the leakage of acoustic radiation from the substrate walls into the fluid. Good agreement is obtained between these preliminary experimental results with those from numerical simulations of the classical acoustic streaming model. In any case, these results show the potential of surface acoustic wave micropu...
Microfluidic devices can provide innovative means to handle and control the transport of (bio)parti...
Fifteen years ago, surface acoustic waves (SAW) were found to be able to drive fluids and numerous a...
Fluid manipulations at the microscale and beyond are powerfully enabled through the use of 10-1,000-...
We demonstrate that the propagation of surface acoustic waves, arising from the excitation of the ac...
Fluid manipulation at the microscale presents significant challenges to the design of portable chip ...
In this paper a new method for surface acoustic wave (SAW) driven microchannel flow is introduced. T...
In this article, we demonstrate a novel microfluidic flow chamber driven by surface acoustic waves. ...
We demonstrate that surface acoustic waves (SAWs), nanometer amplitude Rayleigh waves driven at mega...
In this letter, we demonstrate that surface acoustic waves(SAWs) excited on 36°Y-X LiTaO3 have both ...
We have designed and characterized a surface acoustic wave (SAW) fluid actuation platform that signi...
Rayleigh surface acoustic waves (SAWs), generated on piezoelectric substrates, can interact with li...
In this study, surface acoustic radiation is refracted from lithium niobate through a fluid coupling...
Surface acoustic wave (SAW) devices have emerged over the last two decades as a very promising platf...
Acoustic actuation of fluids at small scales may finally enable a comprehensive lab-on-a-chip revolu...
This paper presents a systematic overview on the recent works on surface acoustic wave (SAW) driven ...
Microfluidic devices can provide innovative means to handle and control the transport of (bio)parti...
Fifteen years ago, surface acoustic waves (SAW) were found to be able to drive fluids and numerous a...
Fluid manipulations at the microscale and beyond are powerfully enabled through the use of 10-1,000-...
We demonstrate that the propagation of surface acoustic waves, arising from the excitation of the ac...
Fluid manipulation at the microscale presents significant challenges to the design of portable chip ...
In this paper a new method for surface acoustic wave (SAW) driven microchannel flow is introduced. T...
In this article, we demonstrate a novel microfluidic flow chamber driven by surface acoustic waves. ...
We demonstrate that surface acoustic waves (SAWs), nanometer amplitude Rayleigh waves driven at mega...
In this letter, we demonstrate that surface acoustic waves(SAWs) excited on 36°Y-X LiTaO3 have both ...
We have designed and characterized a surface acoustic wave (SAW) fluid actuation platform that signi...
Rayleigh surface acoustic waves (SAWs), generated on piezoelectric substrates, can interact with li...
In this study, surface acoustic radiation is refracted from lithium niobate through a fluid coupling...
Surface acoustic wave (SAW) devices have emerged over the last two decades as a very promising platf...
Acoustic actuation of fluids at small scales may finally enable a comprehensive lab-on-a-chip revolu...
This paper presents a systematic overview on the recent works on surface acoustic wave (SAW) driven ...
Microfluidic devices can provide innovative means to handle and control the transport of (bio)parti...
Fifteen years ago, surface acoustic waves (SAW) were found to be able to drive fluids and numerous a...
Fluid manipulations at the microscale and beyond are powerfully enabled through the use of 10-1,000-...