2016
DOI: 10.1016/j.bios.2016.05.059
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Microfluidic integrated acoustic waving for manipulation of cells and molecules

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Cited by 79 publications
(65 citation statements)
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“…For these applications, it is essential to develop strategies for reliable and efficient microfluidic functions and manipulation of particles and bio-molecules in the liquid, such as in a droplet-digital microfluidics [19][20][21]. For such small volumes of liquid down to micro and nano litres, it is a challenge to efficiently manipulate and actuate droplets or liquid in microchannels due to the large surface area to volume ratio in microsystems and therefore the dominance of surface tension forces.…”
Section: Acoustofluidicsmentioning
confidence: 99%
“…For these applications, it is essential to develop strategies for reliable and efficient microfluidic functions and manipulation of particles and bio-molecules in the liquid, such as in a droplet-digital microfluidics [19][20][21]. For such small volumes of liquid down to micro and nano litres, it is a challenge to efficiently manipulate and actuate droplets or liquid in microchannels due to the large surface area to volume ratio in microsystems and therefore the dominance of surface tension forces.…”
Section: Acoustofluidicsmentioning
confidence: 99%
“…As this area has seen tremendous growth over the past two decades, there have been a number of good reviews, typically focusing on either SAW-based sensing 4,5,6,7,8 or SAW-driven microfluidics. 9,10,11 Our aim with this work is to overview developments in both areas, and focus on some of the more recent trends that have arisen in the past several years that are driving SAW-based chemical analysis technology. As these two areas have largely been distinct from each other, there are various potential opportunities to combine multiple SAW features to realize powerful, integrated analytic devices.…”
Section: Introductionmentioning
confidence: 99%
“…When a resonant condition is fulfilled in a microchannel, standing longitudinal waves are excited and interact with flowing particles. This interaction leads to particle movelectrokinetic and viscoelasticement toward pressure nodes (locations where pressure do not vary) or antinodes (locations where pressure has maximum variations) according to their acoustic contrast (Barani et al, 2016;Destgeer & Sung, 2015;Samandari, Abrinia, & Sanati-Nezhad, 2017). Although a large number of studies have been carried out for manipulation of microparticles using SAW within microfluidics (Barani et al, 2016), only one study utilized SAWs for particle steering through non-Newtonian power-law fluids (Kiyasatfar & Nama, 2018).…”
Section: Acoustophoresis-based Particle Manipulation In Vefsmentioning
confidence: 99%