Magnetized algae micro swimmers retain speed and maneuverability, showing promise for targeted drug delivery in confined ...

In several experiments, the wearable accurately identified the presence of hydrogen peroxide in groups of plants exposed to a ...

Researchers at MIT created synthetic muscle tissue that flexes in multiple directions, advancing the development of biohybrid robots for diverse applications.

Scientists at MIT have created a new kind of artificial muscle that can flex and move in multiple directions, much like real ...

Researchers have developed a new method to grow artificial muscle tissues that can twitch and flex in multiple directions.

The human body moves through a coordinated effort of skeletal muscles, working in concert to generate force. While some ...

Professor On Shun Pak and his team of student researchers use microrobots to model the swimming motion of bacteria in the ...

Engineers developed a method to grow artificial muscle tissue that twitches and flexes in multiple, coordinated directions. These tissues could be useful for building 'biohybrid' robots powered by ...

MIT engineers have made a breakthrough in this area—they’ve developed a method to grow muscle tissue that contracts in ...

The flexibility of biohybrid robots could allow them to squeeze and twist through areas that are too small or complex.

The study summarizes key technologies in construction robotics for extreme environments, focusing on efficiency, safety, and autonomous operation challenges.