Wearable electronics is a very fragmented industry when it comes to manufacturers. Even mature sub-sectors have no clear leaders in what will be a $70 billion plus business in 2024 with 12,000 ...

A research team led by Prof. Jerald Yoo from the Department of Electrical and Computer Engineering at Seoul National ...

Researchers at Case Western Reserve University have developed an environmentally safer type of plastic that can be used for wearable electronics, sensors and other electrical applications. The ...

Wearable bioelectronics are reshaping patient care through seamless, personalized monitoring. As technology is gradually becoming smoothly integrated into our daily life, its success will depend not ...

Researchers have developed a new iron-on electronic patch that could make wearable technology easier to apply and customize. The patch uses liquid metal combined with a heat-activated adhesive and ...

To meet the growing demands of flexible and wearable electronic systems, such as smart watches and biomedical sensors, electronics engineers are seeking high-performance transistors that can ...

Iron-on patches can repair clothing or add personal flair to backpacks and hats. And now they could power wearable tech, too. Researchers reporting in ACS Applied Materials & Interfaces have combined ...

A new roadmap links materials, design, and process to build stretchable synaptic transistors for soft, low-power AI and wearable electronic systems. “What’s new here is the process-centric, ...

Forget iPhones and tablets. The latest product shaking up the consumer electronics market is the smartwatch, most notably the Samsung Galaxy Gear smartwatch, released this September. Having been ...

This ironed-on circuit creates a “VT” pattern that lights up LEDs, even when bent into different shapes (as shown in the middle and right images). Iron-on patches can repair clothing or add personal ...