Cancer Cells Microsurgery via Asymmetric Bent Surface Au/Ag/Ni Microrobotic Scalpels Through a Transversal Rotating Magnetic Field

journal article in Web of Science

English

The actuation of micro/nanomachines by means of a magnetic field is a promising fuel-free way to transport cargo in microscale dimensions. This type of movement has been extensively studied for a variety of micro/nanomachine designs, and a special magnetic field configuration results in a near-surface walking. We developed "walking" micromachines which transversally move in a magnetic field, and we used them as microrobotic scalpels to enter and exit an individual cancer cell and cut a small cellular fragment. In these microscalpels, the center of mass lies approximately in the middle of their length. The microrobotic scalpels show good propulsion efficiency and high step-out frequencies of the magnetic field. Au/Ag/Ni microrobotic scalpels controlled by a transversal rotating magnetic field can enter the cytoplasm of cancer cells and also are able to remove a piece of the cytosol while leaving the cytoplasmic membrane intact in a microsurgery-like manner. We believe that this concept can be further developed for potential biological or medical applications.

micromotors; self-propulsion; surface walker; magnetic field; cancer treatment

VYSKOČIL, J.; MAYORGA-MARTINEZ, C.; JABLONSKÁ, E.; NOVOTNÝ, F.; RUML, T.; PUMERA, M.

28. 7. 2020

AMER CHEMICAL SOC

WASHINGTON

1936-0851

ACS Nano

14

7

United States of America

8247

8256

10

https://pubs.acs.org/doi/abs/10.1021/acsnano.0c01705