Surface modification of medical devices allows manufacturers to maintain the mechanical properties of materials while adding specific functionalities at biological interfaces. This optimization is ...

Fraunhofer ISE-led researchers demonstrated zinc-doped tin oxide (ZTO) as an indium-free alternative to indium tin oxide (ITO ...

Electronic devices power everyday life, from smartphones to medical sensors. Yet, as these gadgets grow in number, so does the mounting challenge of electronic waste, or e-waste. Physically transient ...

Many factors are considered and decisions made during the medical device design process, but one aspect that is often overlooked—and in some instances realized too late—is the role pressure-sensitive ...

The use of electronics in various forms is on the rise, from wearable devices like smartwatches to implantable devices like body-implanted sensors, skin-worn smart patches, and disposable monitoring ...

Researchers found that how well light-converting molecules stack together in a solid is important for how well they convert light into electric current. A rigid molecule that stacked well showed ...

The continuous evolution of electronic devices and systems necessitates rigorous performance evaluation, comprehensive testing, and robust simulation strategies. These activities are central to ...

Seoul National University College of Engineering announced that a research team led by Professor Jeonghun Kwak of the Department of Electrical and Computer Engineering has developed a machine learning ...

Researchers have developed a laser-based method to turn natural leather into flexible energy devices, opening a new path for ...

Apple’s iOS 26 represents a significant advancement in battery intelligence, designed to improve performance, extend battery lifespan, and enhance the overall user experience. By integrating ...