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High-energy-density acoustofluidic device using a double-parabolic ultrasonic transducer.


ABSTRACT: High-acoustic-energy-density acoustofluidic devices are necessary to make this technology a viable option for clinical applications in the biomedical field. We present a mechanical interface that enables delivery of a high-amplitude acoustic field inside a fluid cavity by translating the vibrations from two large piezoelectric elements into a microfluidic chip. The study comprises both experimental characterization of a double-parabolic metallic acoustic waveguide and simulations of its working mechanism in two dimensions. We could focus 4.9-μm polystyrene particles at a flowrate of 5 ml/min, corresponding to an average retention time of 13.5 ms for particles in the actuated area. Moreover, we measured the acoustic energy density in the channel at stopped-flow condition, obtaining an average value of 1207 J/m3 and a maximum value of 2977 J/m3 with an input electrical power of 1.5 W. By comparing the simulation results with laser-Doppler vibrometer measurements, we confirmed that transverse sound waves play a significant role in the working mechanism of the double-parabolic structure, thus paving the way for further future optimization of the waveguide design.

SUBMITTER: Corato E 

PROVIDER: S-EPMC7618166 | biostudies-literature | 2025 Feb

REPOSITORIES: biostudies-literature

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High-energy-density acoustofluidic device using a double-parabolic ultrasonic transducer.

Corato Enrico E   Jakobsson Ola O   Qiu Wei W   Morita Takeshi T   Augustsson Per P  

Physical review applied 20250201 2


High-acoustic-energy-density acoustofluidic devices are necessary to make this technology a viable option for clinical applications in the biomedical field. We present a mechanical interface that enables delivery of a high-amplitude acoustic field inside a fluid cavity by translating the vibrations from two large piezoelectric elements into a microfluidic chip. The study comprises both experimental characterization of a double-parabolic metallic acoustic waveguide and simulations of its working  ...[more]

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