(Nanowerk News) Electronics have evolved over the years to supersede simply enhancing day-to-day life to becoming almost seamlessly integrated with daily life. People have become accustomed to ...

Flexible substrates form the backbone of these devices, providing a thin and bendable surface for electronic components. Common materials include: Printing technologies (inkjet, screen, gravure) allow ...

Imagine a future where electronics seamlessly integrate into our lives, adapting to our movements and disappearing into the fabric of our clothing. This vision is rapidly becoming a reality thanks to ...

What if you could design a small piece of electronics that is both flexible and stretchable, is able to take high-resolution images of the electrical signals inside the heart, and cure a cardiac ...

To make stretchable electronics, engineers must start with materials that can tolerate strain. That’s why the ability to endure being stretched is a sought-after quality in flexible electronics, ...

Fitness trackers and smartwatches aren't known for their battery life, and it may have something to do with the inflexible, fixed-shape cell packs inside. A new experiment bears testimony to the idea ...

TL;DR: Researchers from Seoul National University and Drexel University developed stretchable OLED panels using MXenes, ultrathin conductive materials that replace brittle indium tin oxide electrodes.

A research team consisting of a professor from the University of Miami College of Engineering and his collaborators at the University of Illinois and at Northwestern University has developed a new ...

A research team accelerates stretchable technology commercialization with world's first visualization of serpentine structures. A research team at POSTECH has developed a breakthrough technology that ...

Stretchable substrates were fabricated using R2R equipment (A, B), and liquid metal wiring was fabricated using the dispensing process. During substrate fabrication, the material coated at the blade ...