An origami-inspired robot arm made with material from cotton plants and pigs biodegrades when no longer needed. Such a soft ...

Combining robotic arms and 3D printing offers greater flexibility, adaptability and workflow optimization. Learn about the ...

A team of engineers at Westlake University, Zhejiang Normal University and Shaoxing University, all in China, has tested the ...

The disposal of robot components is complex. They usually end up in the trash. What if they could biodegrade themselves?

Relying on motion control experts that offer diverse, application-specific solutions will help robot developers achieve the ...

One is a mobile robot that follows users, and the other is a tabletop home device used on a desk. Additionally, Apple is said ...

A biomaterial that can mimic certain behaviors within biological tissues could advance regenerative medicine, disease ...

Over 80 percent of the e-waste generated ends up in landfills or incinerators – which results in chemicals leaching into the ...

The molds and plate were removed after three hours of curing, and the team applied silicon adhesive to bond the rigid ...

Researchers at Universidad Carlos III de Madrid (UC3M) have developed a new soft joint model for robots with an asymmetrical ...

The unique structure of PAMs has the potential to transform industries, from healthcare to robotics, by offering properties never before seen in materials science. PAMs represent a bold step forward ...

Developed by researchers at Universidad Carlos III de Madrid, the soft robotic joint allows for versatility of movement, ...