Robots now see the world with an ease that once belonged only to science fiction. They can recognise objects, navigate ...

A NIMS research team has developed a new experimental method capable of rapidly evaluating numerous material compositions by measuring anomalous Hall resistivity 30 times faster than conventional ...

Scientists develop a 3D lattice iontronic sensor to decode sophisticated tactile interactions by linearizing both electrical responses and mechanical behaviors The rapid development of humanoid robots ...

In this four-part series, discover how manufacturing breakthroughs, rising demand, new applications and strategic partnerships are set to revolutionize the future of tactile sensors. The tactile ...

At a Thursday lecture event, Benjamin Weiss, a professor of Earth and planetary sciences at the Massachusetts Institute of Technology, spoke about his recent research on the lunar dynamo, which ...

For over three decades, Tekscan, a pioneer in the realm of tactile sensing, has been at the forefront of market innovation and application mastery. Originating from a groundbreaking thin-film flexible ...

For decades, scientists have puzzled over why lunar rocks show signs of strong magnetism when the moon itself has no global magnetic field today. New simulations suggest the answer may lie in a ...

Two new omnipolar sensors employ tunneling magnetoresistance (TMR) technology to offer an alternative to Hall-effect devices by providing superior thermal stability, wide supply voltage compatibility, ...