English

Feedback-controlled microbubble generator producing one million monodisperse bubbles per second

Soft Condensed Matter 2021-04-20 v1 Applied Physics Fluid Dynamics

Abstract

Monodisperse lipid-coated microbubbles are a promising route to unlock the full potential of ultrasound contrast agents for medical diagnosis and therapy. Here, we present a stand-alone lab-on-a-chip instrument that allows microbubbles to be formed with high monodispersity at high production rates. Key to maintaining a long-term stable, controlled, and safe operation of the microfluidic device with full control over the output size distribution is an optical transmission based measurement technique that provides real-time information on production rate and bubble size. We feed the data into a feedback loop and demonstrate that this system can control the on-chip bubble radius (2.5 to 20 μ\mum) and the production rate up to 10610^6 bubbles/s. The freshly formed phospholipid-coated bubbles stabilize after their formation to a size approximately two times smaller than their initial on-chip bubble size without loss of monodispersity. The feedback control technique allows for full control over the size distribution of the agent and can aid the development of microfluidic platforms operated by non-specialist end users.

Keywords

Cite

@article{arxiv.2104.09269,
  title  = {Feedback-controlled microbubble generator producing one million monodisperse bubbles per second},
  author = {Benjamin van Elburg and Gonzalo Collado Lara and Gert-Wim Bruggert and Tim Segers and Michel Versluis and Guillaume Lajoinie},
  journal= {arXiv preprint arXiv:2104.09269},
  year   = {2021}
}

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R2 v1 2026-06-24T01:19:32.475Z