A Miniaturized Wireless Micropump Enabled by Confined Acoustic Streaming

  • You R
  • Fan Q
  • Wang Z
  • et al.
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Abstract

Miniaturization of health care, biomedical, and chemical systems is highly desirable for developing point-of-care testing (POCT) technologies. In system miniaturization, micropumps represent one of the major bottlenecks due to their undesirable pumping performance at such small sizes. Here, we developed a microelectromechanical system fabricated acoustic micropump based on an ultrahigh-frequency bulk acoustic wave resonator. The concept of an inner-boundary-confined acoustic jet was introduced to facilitate unidirectional flow. Benefitting from the high resonant frequency and confined acoustic streaming, the micropump reaches 32.620 kPa/cm 3 (pressure/size) and 11.800 ml/min∙cm 3 (flow rate/size), showing a 2-order-of-magnitude improvement in the energy transduction efficiency compared with the existing acoustic micropumps. As a proof of concept, the micropump was constructed as a wearable and wirelessly powered integrated drug delivery system with a size of only 9×9×9 mm 3 and a weight of 1.16 g. It was demonstrated for ocular disease treatment through animal experimentation and a human pilot test. With superior pumping performance, miniaturized pump size, ultralow power consumption, and complementary metal–oxide–semiconductor compatibility, we expect it to be readily applied to various POCT applications including clinical diagnosis, prognosis, and drug delivery systems.

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APA

You, R., Fan, Q., Wang, Z., Xing, W., Wang, Y., Song, Y., … Wang, Y. (2024). A Miniaturized Wireless Micropump Enabled by Confined Acoustic Streaming. Research, 7. https://doi.org/10.34133/research.0314

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