Janus Micro/Nanorobots in Biomedical Applications
Haiyang Su, Shunxiang Li, Guang‐Zhong Yang, Kun Qian
Abstract
Janus particles possess two or more distinct domains that are anisotropic in composition or surface features. They integrate different or even incompatible properties within a single particle, making them possible to perform diverse functions and multiple tasks simultaneously. Advances in micro/nanorobots demonstrate that they can effectively convert diverse energy sources into movement and reach target locations with precision. Integration of Janus structure with micro/nanobots is emerging as a promising tool for biomedical applications. In this review, the fabrication and energy sources of Janus micro/nanorobots are briefly introduced. After that, the recent progress of Janus micro/nanorobots for biomedicine, with a special focus on their applications for cargo delivery, bioimaging, biosensing, surgery, and therapy are presented and discussed. The application of Janus micro/nanorobots in biomedicine still faces serious challenges from fabrication, engines, biocompatibility, and biodegradation for their widespread in clinical situations. Nevertheless, a few emerging materials and approaches offer potential solutions to these problems.