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Fully Microfabricated Surface Acoustic Wave Tweezer for Collection of Submicron Particles and Human Blood Cells

Armaghan Fakhfouri, Melanie Colditz, Citsabehsan Devendran, Kateryna Ivanova, Stefan Jacob, Adrian Neild, Andreas Winkler

2023ACS Applied Materials & Interfaces27 citationsDOIOpen Access PDF

Abstract

Precise manipulation of (sub)micron particles is key for the preparation, enrichment, and quality control in many biomedical applications. Surface acoustic waves (SAW) hold tremendous promise for manipulation of (bio)particles at the micron to nanoscale ranges. In commonly used SAW tweezers, particle manipulation relies on the direct acoustic radiation effect whose superior performance fades rapidly when progressing from micron to nanoscale particles due to the increasing dominance of a second order mechanism, termed acoustic streaming. Through reproducible and high-precision realization of stiff microchannels to reliably actuate the microchannel cross-section, here we introduce an approach that allows the otherwise competing acoustic streaming to complement the acoustic radiation effect. The synergetic effect of both mechanisms markedly enhances the manipulation of nanoparticles, down to 200 nm particles, even at relatively large wavelength (300 μm). Besides spherical particles ranging from 0.1 to 3 μm, we show collections of cells mixed with different sizes and shapes inherently existing in blood including erythrocytes, leukocytes, and thrombocytes.

Topics & Concepts

Materials scienceAcoustic streamingTweezersAcoustic radiation forceNanotechnologyMicrochannelWavelengthAcoustic waveNanoscopic scaleNanoparticleSurface acoustic waveParticle (ecology)Acoustic levitationAcoustic radiationMicrofluidicsOptoelectronicsOpticsRadiationAcousticsUltrasonic sensorUltrasoundPhysicsQuantum mechanicsGeologyLevitationMagnetOceanographyMicrofluidic and Bio-sensing TechnologiesMicrofluidic and Capillary Electrophoresis ApplicationsNanopore and Nanochannel Transport Studies
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