Acoustically Actuated Flow in Microrobots Powered by Axisymmetric Resonant Bubbles

Abstract: Bubble‐driven microsystems inspired by the therapeutic use of microbubbles under clinical ultrasound actuation offer innovative remote manipulation in biological settings. Ultrasound‐powered microrobots, benefiting from a distribution of vibrating microbubbles (1–100 μm in diameters), exhibit localized fluid flow for self‐propulsion. Microbubbles also contribute to the design of acoustic metamaterials, where distributed actuation of bubbles enables exotic material properties (e.g., negative refractive index). … Show more

“…In addition, microbubbles can be incorporated into 3D-printed microstructures to allow effective manipulation using acoustic actuators [118][119][120][121][122]. This is possible because the confinement of microbubbles within the microstructure's cavities results in significant scattering, resulting in robust propulsive forces when activated by acoustic waves [123].…”

Acoustic Actuators for the Manipulation of Micro/Nanorobots: State-of-the-Art and Future Outlooks

“…In addition, microbubbles can be incorporated into 3D-printed microstructures to allow effective manipulation using acoustic actuators [118][119][120][121][122]. This is possible because the confinement of microbubbles within the microstructure's cavities results in significant scattering, resulting in robust propulsive forces when activated by acoustic waves [123].…”

Acoustic Actuators for the Manipulation of Micro/Nanorobots: State-of-the-Art and Future Outlooks

Navigating micro- and nano-motors/swimmers with machine learning: Challenges and future directions