Penn State scientists create elastic gel-like plastic that conducts electricity using salts and tiny fiber networks for flexible electronics.

Researchers at University of Cambridge have taken a first experimental step toward understanding how the molecular mechanics ...

Flexible electronics such as flexible sensors, flexible circuits, and flexible actuators hold promising applications in robotic systems. They can effectively enhance a robot's intelligence, enabling ...

A team of physicists at the Indian Institute of Science Education and Research Pune (IISER Pune) has developed ultra-thin electronic devices using a special semiconductor material called bismuth ...

Mechanical tests show that these optoelectronic characteristics remain stable under repeated bending, confirming that wavelength selectivity, sensitivity, and flexibility can coexist in a single ...

“There are about 55 million tonnes of peanut crops produced globally every year, yet most of the waste from the shell is ...

Liquid metal droplets fuse themselves into stretchable circuits at room temperature, driven only by surface tension gradients during solvent evaporation.

A thin sheet of nylon does not look like much on its own. But in lab tests, a film made by researchers at RMIT University kept generating electricity after being folded, stretched, and even run over ...

Flexible ICs are durable and form-fitting, but they add manufacturing challenges to already complex processes, while printed flex sensors lack infrastructure. MEMS are finding new popularity in ...

SYDNEY, Feb. 25 (Xinhua) -- Researchers in Australia have developed a cheaper, greener way to turn discarded peanut shells into graphene, a valuable component for electronics and energy devices.

Engineers have mapped out the future of flexible lithium-ion batteries (FLIBs), showing how carbon nanotubes (CNTs) and graphene can transform rigid power sources into stretchable, foldable, and ...