Micro‐Acoustic Holograms for Detachable Microfluidic Devices

Xu, Mingxin; Vidler, Callum; Wang, Jizhen; Chen, Xi; Pan, Zijian; Harley, William S.; Lee, Peter V. S.; Collins, David J.

doi:10.1002/smll.202307529

Cited by 2 publications

(1 citation statement)

References 83 publications

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“…The range of materials compatible with acoustic properties is limited, and so are the available processing techniques, resulting in limited resolution. As exploration continues to advance, this technology promises to be truly revolutionary [125,126].…”

Section: Acoustofluidic Patterning Of Living Cells For Tissue Enginee...mentioning

confidence: 99%

Acoustofluidic Actuation of Living Cells

Wu,

Gai,

Zhao

et al. 2024

Micromachines

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Acoutofluidics is an increasingly developing and maturing technical discipline. With the advantages of being label-free, non-contact, bio-friendly, high-resolution, and remote-controllable, it is very suitable for the operation of living cells. After decades of fundamental laboratory research, its technical principles have become increasingly clear, and its manufacturing technology has gradually become popularized. Presently, various imaginative applications continue to emerge and are constantly being improved. Here, we introduce the development of acoustofluidic actuation technology from the perspective of related manipulation applications on living cells. Among them, we focus on the main development directions such as acoustofluidic sorting, acoustofluidic tissue engineering, acoustofluidic microscopy, and acoustofluidic biophysical therapy. This review aims to provide a concise summary of the current state of research and bridge past developments with future directions, offering researchers a comprehensive overview and sparking innovation in the field.

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Section: Acoustofluidic Patterning Of Living Cells For Tissue Enginee...mentioning

confidence: 99%

Acoustofluidic Actuation of Living Cells

Wu,

Gai,

Zhao

et al. 2024

Micromachines

View full text Add to dashboard Cite

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Microscale actuation using acoustofluidics for rapid micromanipulation and 3D printing

Collins,

Kolesnik,

Harley

et al. 2024

Health Monitoring of Structural and Biological Systems XVIII

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Whereas acoustic fields are widely used for nondestructive evaluation and testing, these same fields can be utilized for actuation with appropriate setups and acoustic amplitudes. Here time-averaged acoustic radiation pressures and forces can be leveraged for micromanipulation, with these arising from diffractive acoustic fields, standing pressure fields, travelling waves, acoustic streaming and related nonlinear acoustic phenomenon. Acoustic fields are particularly useful for activities related to patterning, sorting and mixing of microspecimens, where the wavelength of typical >MHz order acoustic fields approaches that of individual cells, affording rapid manipulation activities. Whereas the much of the acoustofluidic literature has examined the use of acoustic standing waves to accomplish fairly simple lines and grids of particles, here we explore the use of novel acoustofluidic effects and method including microresonators, metamaterials and acoustic holography to generate more complex and tailored outcomes. Further we examine our recent work in 3D printing and the potential for future efforts to combine these developments with acoustic micromanipulation.

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Micro‐Acoustic Holograms for Detachable Microfluidic Devices

Cited by 2 publications

References 83 publications

Acoustofluidic Actuation of Living Cells

Acoustofluidic Actuation of Living Cells

Microscale actuation using acoustofluidics for rapid micromanipulation and 3D printing

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