Design and batch fabrication of anisotropic microparticles toward small-scale robots using microfluidics: recent advances.
Chaoyu YangXurui LiuXin SongLi ZhangPublished in: Lab on a chip (2024)
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.
Keyphrases
- high throughput
- single cell
- drug delivery
- finite element
- circulating tumor cells
- staphylococcus aureus
- working memory
- low cost
- mass spectrometry
- high resolution
- candida albicans
- heavy metals
- human health
- helicobacter pylori
- mesenchymal stem cells
- gestational age
- air pollution
- helicobacter pylori infection
- biofilm formation
- drinking water
- current status