Acoustic micro-beam vortex generator for flow actuation inside droplets

Droplet Pub Date : 2024-01-01 DOI:10.1002/dro2.96
Diego Sánchez-Saldaña, Maria Fernandino, Carlos A. Dorao
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Abstract

Controlling acoustic streaming inside a droplet has excellent potential for enabling fluid and particle operations such as mixing, separation, and aggregation in various applications. Most concepts for generating surface acoustic waves are based on the placement of an interdigitated transducer at the side of a droplet, thus externally acting on the droplet. In this case, the flow structure inside the droplet is controlled by the relatively large scale of the interdigitated transducer compared to the droplet, thus limiting the local control of the flow. One possibility to overcome this drawback is to reduce the size of the actuator such that a highly focused ultrasound transducer can induce localized acoustic streaming in space. Here, we introduce a micro-spiral interdigitated transducer smaller than a droplet size that can generate micro-size vortices inside the droplet. This step enables a new way of controlling the flow inside the droplet, facilitating mixing, separation, aggregation, and patterning of particles. We study the characteristics of the acoustic streaming and the potential application of the flow for the separation and patterning of particles. The simplicity of the concept provides in-droplet particle manipulation toolsets for many applications such as biosensing, microbiology, and point-of-care devices.

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用于液滴内部流动驱动的声学微束涡流发生器
在各种应用中,控制液滴内部的声流对于实现流体和颗粒的混合、分离和聚集等操作具有极大的潜力。大多数产生表面声波的概念都是基于在液滴一侧放置一个相互咬合的换能器,从而从外部作用于液滴。在这种情况下,液滴内部的流动结构受控于与液滴相比相对较大的互斥换能器,从而限制了对流动的局部控制。克服这一缺点的一种方法是缩小致动器的尺寸,使高度集中的超声换能器能够在空间中诱导局部声流。在这里,我们引入了一种比液滴尺寸更小的微型螺旋交叉换能器,它可以在液滴内部产生微小的涡流。这一步实现了一种控制液滴内部流动的新方法,有利于颗粒的混合、分离、聚集和图案化。我们研究了声波流的特性以及这种流动在颗粒分离和图案化方面的潜在应用。这一简单的概念为生物传感、微生物学和护理点设备等许多应用提供了液滴内粒子操纵工具集。
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6.60
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Issue Information Front Cover, Volume 3, Number 4, October 2024 Inside Back Cover, Volume 3, Number 4, October 2024 Back Cover, Volume 3, Number 4, October 2024 Inside Front Cover, Volume 3, Number 4, October 2024
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