Micromachines (Feb 2024)

Controlling the Collective Behaviors of Ultrasound-Driven Nanomotors via Frequency Regulation

  • Zhihong Zhao,
  • Jie Chen,
  • Gaocheng Zhan,
  • Shuhao Gu,
  • Jiawei Cong,
  • Min Liu,
  • Yiman Liu

DOI
https://doi.org/10.3390/mi15020262
Journal volume & issue
Vol. 15, no. 2
p. 262

Abstract

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Controlling the collective behavior of micro/nanomotors with ultrasound may enable new functionality in robotics, medicine, and other engineering disciplines. Currently, various collective behaviors of nanomotors, such as assembly, reconfiguration, and disassembly, have been explored by using acoustic fields with a fixed frequency, while regulating their collective behaviors by varying the ultrasound frequency still remains challenging. In this work, we designed an ultrasound manipulation methodology that allows nanomotors to exhibit different collective behaviors by regulating the applied ultrasound frequency. The experimental results and FEM simulations demonstrate that the secondary ultrasonic waves produced from the edge of the sample cell lead to the formation of complex acoustic pressure fields and microfluidic patterns, which causes these collective behaviors. This work has important implications for the design of artificial actuated nanomotors and optimize their performances.

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