Recent strides in the development of untethered miniature
robots
have shown the advantages of diverse actuation methods, flexible maneuverability,
and precise locomotion control, which has made miniature robots attractive
for biomedical applications such as drug delivery, minimally invasive
surgery, and disease diagnosis. However, biocompatibility and environmental
adaptability are among the challenges for further in vivo applications
of miniature robots due to the sophisticated physiological environment.
Herein, we propose a biodegradable magnetic hydrogel robot (BMHR)
that possesses precise locomotion with four stable motion modes, namely
tumbling mode, precession mode, spinning-XY mode, and spinning-Z mode.
Using a homemade vision-guided magnetic driving system, the BMHR can
achieve flexible conversion between the different motion modes to
cope with changes in complex environments, and its superior ability
to cross obstacles is demonstrated. In addition, the transformation
mechanism between different motion modes is analyzed and simulated.
Benefiting from the diverse motion modes, the proposed BMHR has promising
applications in drug delivery, showing remarkable effectiveness in
targeted cargo delivery. The BMHR’s biocompatible property,
multimodal locomotion, and functionality with drug-loaded particles
can provide a new perspective to combine miniature robots with biomedical
applications.
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