Find a Question:
These crumbs-assembly robots entrust living tissue and electronics
Robots replace humans on assembly lines. They can build whatever they said people – from cars and finishing hardware Google . Researchers from the Women’s Hospital named Byam and Carnegie Mellon University are considering robotic assembly at the micro level. In an article published recently in the journal Nature Communications, they describe the tiny robots that can interact with living cells and processors.
The robot of less than one millimeter is simple rectangular shape object consisting of metal particles. Magnets around the construction site pushing the car with enough force in any direction, whereby it moves easily various materials to the right place.
As the resource GigaOM, the scientists used a robot to assemble the different geometric shapes of the gel elements of square shape with an area of 1 millimeter. Of the robot allow it to react with more complex objects, for example in the form of a sphere or of a triangle, and a high build structures.
If you put gel in living cells, it is possible to get the machine to create a living tissue, from which you can then collect the human body for subsequent transplantation. As part of a scientific experiment the researchers were able for one approach to put together some gel cubes with mouse cells. Four days later, they noticed that the experimental cells survived and even began to multiply.
The rapid development of 3D-printing spurred interest in the cultivation of living tissue on an industrial scale. Company Organovo, for example, learn to type liver and eyes. The secrets of printing this week also shared Institute researchers methodological research Houston.
It should be noted that the robot is able to work under discussion not only with gel materials, but also with a tiny electronics. Scientists hope that in the future it will be possible in this way to collect electronic components for complex and specialized devices.
In fact, we are only beginning to explore the possibilities of using this microrobot for the management of individual cells or encapsulated building blocks. This is a very interesting and fast-growing area that is fraught with many opportunities for medicine – the researchers wrote in their paper.
Apple wants back in chambers iPhone only 6 sensors Sony
NEXT Scientists create nanoscale intracellular robot surgeons
Tags: 3D-printing , cells , organs , Electronics .
Tags: 8240bo, anie-liseweska, chrome-cast-plex, google-chrome-cast-hacks, hack-chromecast, how-to-use-allcast-on-chromecast, httptechn4all-comtechnology-gadgets-mobile-phonesunlock-android-phone-bypass-google-sign-in-bypass-pattern-lock-crack-samsung-pattern-lock-crack-google-sign-in-android, httptechn4all-comtechnology-gadgets-mobile-phonesunlock-android-phone-bypass-google-sign-in-bypass-pattern-lock-crack-samsung-pattern-lock-crack-google-sign-in-androidry, ibm-laptop, ibm-lenovo, laptopibmthinkpad, nvidiageforcegt745m4gb, plex-for-chrome-cast, plex-on-chrome-cast, smartphone-feature-and-customer-intention, synology-chromecast, techn4all, viwing-flipboard-magazines, what-apps-work-with-chrome-cast, www-techn4all-nl
Answer this Question
You must be Logged In to post an Answer.
Not a member yet? Sign Up Now »
Star Points Scale
Earn points for Asking and Answering Questions!