2016
DOI: 10.3390/mi7090150
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Controllable Acoustic Mixing of Fluids in Microchannels for the Fabrication of Therapeutic Nanoparticles

Abstract: Fifteen years ago, surface acoustic waves (SAW) were found to be able to drive fluids and numerous applications in microfluidics have been developed since. Here, we review the progress made and report on new approaches in setting-up microfluidic, continuous flow acoustic mixing. In a microchannel, chaotic advection is achieved by generation of a SAW driven fluid jet perpendicular to the mean flow direction. Using a high speed video camera and particle image velocimetry, we measure the flow velocities and show … Show more

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Cited by 31 publications
(31 citation statements)
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“…179 Along those lines, Westerhausen used a microchannel mixing strategy to synthesize mono-nucleic acid/lipid particles (mNALPs) by mixing separate liquid streams of lipids and nucleic acids in what amounted to a solvent exchange process. 180 …”
Section: Saw-integrated Microfluidicsmentioning
confidence: 99%
“…179 Along those lines, Westerhausen used a microchannel mixing strategy to synthesize mono-nucleic acid/lipid particles (mNALPs) by mixing separate liquid streams of lipids and nucleic acids in what amounted to a solvent exchange process. 180 …”
Section: Saw-integrated Microfluidicsmentioning
confidence: 99%
“…Automated production of pDNA PEI polyplexes in T-junctions has been shown by Kasper et al (2011) in our lab. Continuous or batch wise production of PEI pDNA polyplexes with active mixing by surface acoustic waves (SAWs) has been demonstrated by Westerhausen et al (2016) and Schnitzler et al (2019). The decrease in size and polydispersity is most impressive in lipid nanoparticle formulations with siRNA Krzysztoń et al, 2017).…”
Section: Discussionmentioning
confidence: 99%
“…Additionally, producing polyplexes without the help of organic solvents, which possibly alters the kinetically controlled assembly process, which needs mixing speeds in the order of 50 ms (Braun et al, 2005) to yield small particles, could facilitate the integration of this method into acetone intolerant applications. One solution could be the utilization of SAWs (Westerhausen et al, 2016) to avoid usage of organic solvents. In the end, there could be a small set of modules researchers could choose from according to the desired properties of their particles.…”
mentioning
confidence: 99%
“…Fluid interfaces are ubiquitous in a wide spectrum of natural phenomena and technological applications, from the wetting properties of plant leaves 1 and insects walking and jumping on water 2 to recent technological advances in micro-/nanofluidics, 3,4 design of surfaces with controllable wetting properties, 5-8 colloidal science, 9,10 bioengineering, [11][12][13] sensing, 14 and biomimetics. 15,16 All these demand a molecular-level understanding of the fundamental physical properties of matter on interfaces.…”
Section: Introductionmentioning
confidence: 99%