Design and batch fabrication of anisotropic microparticles toward small-scale robots using microfluidics: recent advances

IF 6.1 2区 工程技术 Q1 BIOCHEMICAL RESEARCH METHODS
Lab on a Chip Pub Date : 2024-08-19 DOI:10.1039/D4LC00566J
Chaoyu Yang, Xurui Liu, Xin Song and Li Zhang
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Abstract

Small-scale robots with shape anisotropy have garnered significant scientific interest due to their enhanced mobility and precise control in recent years. Traditionally, these miniature robots are manufactured using established techniques such as molding, 3D printing, and microfabrication. However, the advent of microfluidics in recent years has emerged as a promising manufacturing technology, capitalizing on the precise and dynamic manipulation of fluids at the microscale to fabricate various complex-shaped anisotropic particles. This offers a versatile and controlled platform, enabling the efficient fabrication of small-scale robots with tailored morphologies and advanced functionalities from the microfluidic-derived anisotropic microparticles at high throughput. This review highlights the recent advances in the microfluidic fabrication of anisotropic microparticles and their potential applications in small-scale robots. In this review, the term ‘small-scale robots’ broadly encompasses micromotors endowed with capabilities for locomotion and manipulation. Firstly, the fundamental strategies for liquid template formation and the methodologies for generating anisotropic microparticles within the microfluidic system are briefly introduced. Subsequently, the functionality of shape-anisotropic particles in forming components for small-scale robots and actuation mechanisms are emphasized. Attention is then directed towards the diverse applications of these microparticle-derived microrobots in a variety of fields, including pollution remediation, cell microcarriers, drug delivery, and biofilm eradication. Finally, we discuss future directions for the fabrication and development of miniature robots from microfluidics, shedding light on the evolving landscape of this field.

Abstract Image

利用微流体技术设计和批量制造各向异性微颗粒以实现小型机器人:最新进展
近年来,具有形状各向异性的小型机器人因其更强的移动性和精确控制能力而备受科学界关注。传统上,这些微型机器人是采用成型、3D 打印和微加工等成熟技术制造的。然而,近年来出现的微流体技术已成为一种前景广阔的制造技术,它利用在微观尺度上对流体的精确和动态操控,制造出各种形状复杂的各向异性颗粒。这提供了一个多功能的可控平台,能够利用微流体衍生的各向异性微颗粒,高通量地高效制造出具有定制形态和先进功能的小型机器人。本综述重点介绍各向异性微颗粒微流体制造的最新进展及其在小型机器人中的潜在应用。在本综述中,"小型机器人 "一词泛指具有运动和操纵能力的微型机器人。首先,简要介绍了液体模板形成的基本策略以及在微流体系统中生成各向异性微颗粒的方法。随后,强调了形状各向异性微粒在形成小型机器人和执行机制部件方面的功能。然后,我们将注意力引向这些微颗粒衍生的微型机器人在各个领域的不同应用,包括污染修复、细胞微载体、药物输送和生物膜消除。最后,我们讨论了利用微流体制造和开发微型机器人的未来方向,揭示了这一领域不断发展的前景。
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来源期刊
Lab on a Chip
Lab on a Chip 工程技术-化学综合
CiteScore
11.10
自引率
8.20%
发文量
434
审稿时长
2.6 months
期刊介绍: Lab on a Chip is the premiere journal that publishes cutting-edge research in the field of miniaturization. By their very nature, microfluidic/nanofluidic/miniaturized systems are at the intersection of disciplines, spanning fundamental research to high-end application, which is reflected by the broad readership of the journal. Lab on a Chip publishes two types of papers on original research: full-length research papers and communications. Papers should demonstrate innovations, which can come from technical advancements or applications addressing pressing needs in globally important areas. The journal also publishes Comments, Reviews, and Perspectives.
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