Beyond this fundamental mechanism, our auxetic design further strengthens sensor performance in three critical aspects: sensitivity enhancement through localized strain concentration, exceptional ...

Conventional wearable ultrasound sensors have been limited by low power output and poor structural stability, making them ...

Wearable, flexible strain sensors unobtrusively monitor tiny vibrations of human skin in real time and with great accuracy, thanks to innovative fabrication techniques using composite materials. High ...

System reliability and safety are paramount across industries such as semiconductors, energy, automotive, and steel, where ...

Highly accurate pressure sensors with long-term stability are necessary for fuel efficiency and reduction of harmful emissions. Increasingly demanding requirements of piezoresistive sensors include ...

A technology that can expedite the process of inspecting aircraft structures for cracks received FAA approval on March 3. While the supplemental type certificate (STC) applies to one specific ...

Position description: The Department of Civil, Structural & Environmental Engineering is recruiting a PhD student to conduct multidisciplinary research in one or more of the following areas: 1) ...

An ultrasound sensor for detecting dangerous cracks in structures such as aircraft engines, oil and gas pipelines and nuclear plants has been developed – with inspiration from the natural world. An ...