A chance discovery led a team of scientists from Rice University, University of Cambridge and Stanford University to ...

Many companies have targets to make 100% of their packaging recyclable, reusable or compostable by 2025. Now, as they face ...

A revolutionary new spintronic device developed in China enables powerful, precise control of terahertz (THz) wave ...

Dell has just unveiled major performance and sustainability upgrades to its AI PC portfolio, setting new benchmarks in ...

STAMP revolutionizes muscle fiber alignment on hydrogels using 3D-printed stamps, enhancing soft robotics and tissue engineering with a cost-effective approach.

A team of MIT researchers recently created the first synthetic muscle actuator that can flex in multiple directions. This study opens the door for more capable soft robots and other advanced medical ...

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

First, they 3D-printed a small, handheld stamp patterned with microscopic ... for her group and others, to design artificial ...

Table of Contents How blood pressure sensing works on a ring? An approach validated by science The dawn of a new era for smart rings Circular is a relatively small player in the smart ring segment ...

A faculty member who uses his business background of seeing technology go from concept to production and a graduating engineering student who enjoys helping others and wants to develop medical devices ...

I also leveraged cradle-to-cradle design, selecting materials that could be fully recycled or biodegraded. To maintain a circular focus, I implemented digital twin technology, allowing real-time ...