Remember the MIT’s RoboBee? The initiative kicked off a couple of years ago, aiming to fix a major problem that we currently have: the bee population is slowly dying, and without bees, we’re pretty ...

Grabit, a spinoff company of SRI International, has developed a robotic hand that is able to grab and move things using static electricity. The effect that the robot arm does is similar to the one ...

Harvard University technologists have designed a small aerial bot. The flying robot uses static electricity to adhere to the underside of a leaf and to rest on other materials. The flying device has ...

The humanoid learns tasks in a virtual environment by combining real-world data with NVIDIA Issac Sim – a robotics simulation ...

Bittle X turns robotics into an accessible, hands-on learning experience. Students or hobbyists can assemble it, program it ...

One day, robots might navigate through your blood vessels to break up clots, deliver targeted chemotherapy or repair ruptured blood vessels more efficiently and effectively than existing tools, ...

There have already been robots that can walk, robots that can fly and robots that can swim—but what about robots that can stick to ceilings? Researchers at Harvard have taken biomimicry to a new level ...

A cheap robotic hand developed by a company called Grabit offers something most of the other mechanical limbs we've seen before don't: the ability to pick up objects using electrostatic attraction.

Posts from this topic will be added to your daily email digest and your homepage feed. is a senior reporter who has covered AI, robotics, and more for eight years at The Verge. Flying can be ...

One of the most problematic issues with robots is their ability to be flexible when grasping an object. I mean, have you ever tried that children's claw toy game? Well, a new kind of robot solves that ...