New remote-controlled microrobots for medical operations
The recent paper "Soft micromachines with programmable motility and morphology" by Hen-Wei Huang, Mahmut Selman Sakar, Andrew J. Petruska, Salvador Pané and Bradley J. Nelson, Nature Communications, gathered a lot of international attention in various news channels.
Extract from the EPFL News article:
For the past few years, scientists around the world have been studying ways to use miniature robots to better treat a variety of diseases. The robots are designed to enter the human body, where they can deliver drugs at specific locations or perform precise operations like clearing clogged-up arteries. By replacing invasive, often complicated surgery, they could optimize medicine.
EPFL scientist Selman Sakar teamed up with Hen-Wei Huang and Bradley Nelson at ETHZ to develop a simple and versatile method for building such bio-inspired robots and equipping them with advanced features. They also created a platform for testing several robot designs and studying different modes of locomotion. Their work, published in Nature Communications, produced complex reconfigurable microrobots that can be manufactured with high throughput. They built an integrated manipulation platform that can remotely control the robots’ mobility with electromagnetic fields, and cause them to shape-shift using heat.
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