Micromachines (Jul 2021)

Ultrasonic Particle Manipulation in Glass Capillaries: A Concise Review

  • Guotian Liu,
  • Junjun Lei,
  • Feng Cheng,
  • Kemin Li,
  • Xuanrong Ji,
  • Zhigang Huang,
  • Zhongning Guo

DOI
https://doi.org/10.3390/mi12080876
Journal volume & issue
Vol. 12, no. 8
p. 876

Abstract

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Ultrasonic particle manipulation (UPM), a non-contact and label-free method that uses ultrasonic waves to manipulate micro- or nano-scale particles, has recently gained significant attention in the microfluidics community. Moreover, glass is optically transparent and has dimensional stability, distinct acoustic impedance to water and a high acoustic quality factor, making it an excellent material for constructing chambers for ultrasonic resonators. Over the past several decades, glass capillaries are increasingly designed for a variety of UPMs, e.g., patterning, focusing, trapping and transporting of micron or submicron particles. Herein, we review established and emerging glass capillary-transducer devices, describing their underlying mechanisms of operation, with special emphasis on the application of glass capillaries with fluid channels of various cross-sections (i.e., rectangular, square and circular) on UPM. We believe that this review will provide a superior guidance for the design of glass capillary-based UPM devices for acoustic tweezers-based research.

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