Research Progress
MagnetoSperm: A tiny swimming robot inspired by human sperm
Post: 2014-09-29 16:29  View:1018

MagnetoSperm, or sperm-inspired robots, swim in response to an oscillating magnetic field. (I.S.M. Khalil / GUC & S. Misra / University of Twente)

 

Meet MagnetoSperm! No, its not a precursor to a movie called X-Men: The Next Generation – its a tiny, swimming robot inspired by sperm cells.


Described in the journal Applied Physics Letters, such microrobots – if further scaled down – could become valuable tools for in vitro fertilization, delivering targeted drugs into the body or even performing minimally invasive surgical procedures.

 

Ick factor vies with cool factor in this bioinspired bots story.

“Sperm was chosen because of its streamlined shape,” lead researcher Sarthak Misra, a roboticist at the University of Twente in the Netherlands, said of the team’s inspiration. “And we found it is also quite efficient in terms of traveling distances in environments that [have] varying fluid flow.... Sperm cells are adept to that and can move really well.”

The microrobots measure just 322 micrometers long, 5.2 micrometers wide and 42 micrometers thick, and their heads are coated with a 200-nanometer nickel-cobalt layer that allows them to respond to a magnetic field.

Microrobots are often limited to larger-than-ideal sizes because they need to have their power and navigation systems attached, which can get bulky, said Misra, who spoke from Hong Kong while attending the International Conference on Robotics and Automation. Misra’s team solved this by using four electromagnetic coils to generate an oscillating field that was as weak as a refrigerator magnet but strong enough to get the tailed robots to waggle and swim.


Size, of course, matters: At 322 micrometers long, these spermbots are still roughly six times the size of their biological peers (in humans, anyway). Further miniaturizing these mechanical swimmers – which the researchers hope to do by developing magnetic nanofibers to replace the spermbots current tail – could potentially make such microbots useful for a variety of applications in the body, including cleaning out clogged arteries and helping conventionally invasive surgeries become scar- and trauma- free.

 

The above story is based on materials by Wicked Los Angeles Times. 
Note: Materials may be edited for content and length. For further information, please contact the source cited above.

Attachment:
Address: C508 Dingxin Building, Jilin University, 2699 Qianjin Street, Changchun 130012, P. R. China
Copyright © 2024 International Society of Bionic Engineering All Rights Reserved
吉ICP备11002416号-1