A flexible foam sensor built from silver selenide detects temperature and pressure simultaneously, enabling a robotic gripper to identify nine different materials with 96% accuracy. (Nanowerk ...

Robots are now capable of seeing and moving, but touch remains a major challenge ...

A research team, including Huanyu "Larry" Cheng, James L. Henderson Jr. Memorial Associate Professor of Engineering Science ...

(Nanowerk News) A pioneering project to develop advanced sensors for use in robotic systems, could transform prosthetics and robotic limbs (Key Engineering Materials, "Ultra-Thin Graphene Foam Based ...

This porous material is far more sensitive than the current sensors used by bomb squads to identify gases from nitrogen-based explosives. It also detects leaks of dangerous industrial gases. Martin ...

Add Yahoo as a preferred source to see more of our stories on Google. Researchers are hoping graphene foam sensors will help transform prosthetics and robotic limbs, allowing them to mimic the ...

A new study demonstrates how graphene foam can outperform leading commercial gas sensors in detecting potentially dangerous and explosive chemicals. The discovery opens the door for a new generation ...

Researchers are hoping graphene foam sensors will help transform prosthetics and robotic limbs, allowing them to mimic the sensitivity and feedback of the human touch. The project, led in part by the ...

A new study from Rensselaer Polytechnic Institute demonstrates how graphene foam can outperform leading commercial gas sensors in detecting potentially dangerous and explosive chemicals. The discovery ...