Developed by Northwestern Engineering’s Igor Efimov and George Washington University’s Luyao Lu, the implantable device uses ...

A team of international researchers has successfully created a new type of highly conductive 2D polymer, opening the door to ...

Enhanced bonding performance: Reliable adhesion to TPE materials, especially TPE-S and TPE-O, ensuring robust and durable ...

But, a flexible substrate isn’t very useful for electronics without some conductive traces. Copper and silver inks make for good electrical circuits on stretchable films, and are even solderable ...

“Printed electronics allows us to create conductive circuits that are thin, flexible, and capable of ... Additionally, temperature-sensitive sensors, printed on Kapton material, enable real ...

Conductive hydrogels, with their unique combination of electrical conductivity and stretchability, are emerging as critical components for next-generation, flexible, and wearable sensors. In this work ...

Abstract: Flexible strain sensors based on liquid metal have great application potential in wearable devices, biomedicine and soft robots due to their huge deformability, low hysteresis and high ...

The non-invasive sensor-based system – using a capacitive sensor – can efficiently discern changes even when not in direct contact with the skin. It represents an alternative to chest-band or face ...