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Recent Advances in Microrobots Powered by Multi-Physics Field for Biomedical and Environmental Applications
Summary
Not relevant to microplastics — this review surveys multi-physics-field-driven microrobots for biomedical and environmental applications such as targeted drug delivery and pollutant degradation, with microplastic removal mentioned only in passing as one of many potential environmental uses.
Microrobots powered by multi-physics fields are becoming a hotspot for micro-nano manufacturing. Due to the small size of microrobots, they can easily enter small spaces that are difficult for ordinary robots to reach and perform a variety of special tasks. This gives microrobots a broad application prospect in many fields. This paper describes the materials, structures, and driving principles of microrobots in detail and analyzes the advantages and limitations of their driving methods in depth. In addition, the paper discusses the detailed categorization of the action forms of microrobots and explores their diversified motion modes and their applicable scenarios. Finally, the article highlights the wide range of applications of microrobots in the fields of biomedicine and environmental protection, emphasizing their great potential for solving real-world problems and advancing scientific progress.
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