Tiny algae-based robots guided by magnets could improve bladder cancer treatment by boosting delivery of chemotherapy drugs ...

In mouse tests, magnet-guided algae microbots helped chemotherapy penetrate bladder tumours more deeply, cutting tumour ...

Tiny algae-based robots guided by magnets could improve bladder cancer treatment by boosting delivery of chemotherapy drugs ...

Scientists have found a new way to use self-propelled microbots to clean wastewater. Researchers and scientists from institutions across Germany and Spain are using graphene and microbots to clean ...

Add Futurism (opens in a new tab) More information Adding us as a Preferred Source in Google by using this link indicates that you would like to see more of our content in Google News results.

(Phys.org)—A new study shows that a swarm of hundreds of thousands of tiny microbots, each smaller than the width of a human hair, can be deployed into industrial wastewater to absorb and remove toxic ...

Add Yahoo as a preferred source to see more of our stories on Google. STORY: These little green dots are microrobots. They can navigate in a cell network and stimulate individual cells in a targeted ...

Engineers at the University of Colorado­—Boulder have designed a new type of “microbot,” which has to potential to revolutionized treatment for various health conditions, including interstitial ...

These tiny robots take a cue from ant colonies to cooperatively build. Some do the glue work, and some assemble scaffolding that could make for stronger 3D printing. Someday armies of microscopic bots ...

“All-Terrain Microbots” sounds like it should be the name of a 1980s cartoon, accompanied by its own toy line and sugary breakfast cereal. In fact, it’s a description of the tiny microscale magnetic ...

In the fast-paced world of medical innovation, the development of programmable microbots is emerging as a revolutionary force, offering groundbreaking solutions for long-term autonomous operations in ...

This project involves the manipulation and the assembly of micro-objects using an optically controlled bubble microrobot. This allows light patterns to control the movement of the microrobot.