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Micromachines that fly by magnetism

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Posted November 7, 2019

Researchers at the Paul Scherrer Institute PSI and ETH Zurich have developed a micromachine that can perform different actions. First nanomagnets in the components of the microrobots are magnetically programmed and then the various movements are controlled by magnetic fields. Such machines, which are only a few tens of micrometers across, could be used, for example, in the human body to perform small operations.

The robot, which measures only a few micrometers across, is reminiscent of a paper bird made with origami – the Japanese art of paper folding. But, unlike a paper structure, the robot moves as if by magic without a visible force. It flaps its wings or bends its neck and retracts its head. These actions are all made possible by magnetism.

The scanning electron microscope image shows the bird-like construct with arrangements of nanoscale magnets. The magnets can be magnetized in different orientations parallel to the color bars. Image credit: PSI / ETH Zurich

Researchers at the Paul Scherrer Institute PSI and ETH Zurich have assembled the micromachine from materials that contain small nanomagnets. These nanomagnets can be programmed to assume a particular magnetic orientation. When the programmed nanomagnets are then exposed to a magnetic field, specific forces act on them. If these magnets are located in flexible components, the forces acting on them cause the components to move.

The nanomagnets can be programmed again and again. This reprogramming results in different forces and new movements result. For the construction of the microrobot, the researchers fabricated arrays of cobalt magnets on thin sheets of silicon nitride. The bird constructed from this material could then perform various movements, such as flapping, hovering, turning or side-​slipping. The researchers have now published their results in the scientific journal Nature.

“The movements performed by the microrobot take place within milliseconds”, says Laura Heyderman, head of the Laboratory for Multiscale Materials Experiments at PSI and professor for Mesoscopic Systems at ETH Zurich. “But the programming of the nanomagnets only takes a few nanoseconds. This makes it possible to program the different movements one after the other. This means that the tiny micro bird can first flap its wings, then slip to the side and afterward flap again. “If needed, the bird could also hover in-between”, says Heyderman.

Intelligent microrobots

This novel concept is an important step towards micro-​ and nanorobots that not only store information to give a particular action, but also can be reprogrammed to carry out different tasks. “It is conceivable that, in the future, an autonomous micromachine will navigate through human blood vessels and perform biomedical tasks such as killing cancer cells”, explains Bradley Nelson, Institute of Robotics and Intelligent Systems at ETH Zurich. Other application areas are also conceivable, for example, flexible microelectronics or microlenses that change their optical properties.

In addition, applications are possible in which the characteristics of surfaces change. “For example, they could be used to create surfaces that can either be wetted by water or repel water”, says Jizhai Cui, an engineer, and researcher in the Mesoscopic Systems Lab.

Source: ETH Zurich

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