Airborne Acoustic Vortex End Effector-Based Contactless, Multi-Mode, Programmable Control of Object Surfing

IF 6.4 3区 材料科学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY Advanced Materials Technologies Pub Date : 2024-06-22 DOI:10.1002/admt.202400564
Teng Li, Jiali Li, Luyu Bo, Michael R. Brooks, Yingshan Du, Bowen Cai, Zhe Pei, Liang Shen, Chuangchuang Sun, Jiangtao Cheng, Y. Albert Pan, Zhenhua Tian
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Abstract

Tweezers based on optical, electric, magnetic, and acoustic fields have shown great potential for contactless object manipulation. However, current tweezers designed for manipulating millimeter-sized objects such as droplets, particles, and small animals exhibit limitations in translation resolution, range, and path complexity. Here, a novel acoustic vortex tweezers system is introduced, which leverages a unique airborne acoustic vortex end effector integrated with a three-degree-of-freedom (DoF) linear motion stage, for enabling contactless, multi-mode, programmable manipulation of millimeter-sized objects. The acoustic vortex end effector utilizes a cascaded circular acoustic array, which is portable and battery-powered, to generate an acoustic vortex with a ring-shaped energy pattern. The vortex applies acoustic radiation forces to trap and spin an object at its center, simultaneously protecting this object by repelling other materials away with its high-energy ring. Moreover, The vortex tweezers system facilitates contactless, multi-mode, programmable object surfing, as demonstrated in experiments involving trapping, repelling, and spinning particles, translating particles along complex paths, guiding particles around barriers, translating and rotating droplets containing zebrafish larvae, and merging droplets. With these capabilities, It is anticipated that the tweezers system will become a valuable tool for the automated, contactless handling of droplets, particles, and bio-samples in biomedical and biochemical research.

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基于机载声学涡流末端效应器的物体冲浪非接触、多模式、可编程控制
基于光场、电场、磁场和声场的镊子在非接触式物体操纵方面显示出巨大的潜力。然而,目前专为操纵毫米级物体(如液滴、颗粒和小动物)而设计的镊子在平移分辨率、范围和路径复杂性方面存在局限性。本文介绍了一种新型声学涡旋镊系统,该系统利用独特的机载声学涡旋末端效应器与三自由度(DoF)线性运动平台集成,实现了对毫米级物体的非接触、多模式、可编程操纵。声漩涡末端效应器利用便携式电池供电的级联圆形声阵列,产生具有环形能量模式的声漩涡。漩涡利用声辐射力在其中心捕获并旋转物体,同时利用其高能环排斥其他材料,从而保护该物体。此外,漩涡镊系统还可实现非接触、多模式、可编程的物体冲浪,这一点已在以下实验中得到证实:捕获、排斥和旋转粒子,沿复杂路径平移粒子,引导粒子绕过障碍物,平移和旋转含有斑马鱼幼虫的液滴,以及合并液滴。有了这些功能,预计镊子系统将成为生物医学和生物化学研究中自动、非接触式处理液滴、微粒和生物样本的重要工具。
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来源期刊
Advanced Materials Technologies
Advanced Materials Technologies Materials Science-General Materials Science
CiteScore
10.20
自引率
4.40%
发文量
566
期刊介绍: Advanced Materials Technologies Advanced Materials Technologies is the new home for all technology-related materials applications research, with particular focus on advanced device design, fabrication and integration, as well as new technologies based on novel materials. It bridges the gap between fundamental laboratory research and industry.
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