PORTLAND, Ore. — Traditional silicon circuitry is lightning fast, but can't be deposited on flexible polymer substrates because of the high temperatures used to process CMOS wafers. Conversely, ...

Researchers working with the U.S. Air Force Office of Scientific Research have developed a method to spray down a film of carbon nanotubes to form thin, flexible electronics. These pliable circuits ...

With the introduction of Pyralux High Temperature (HT) flexible circuit material systems, flexible circuits will make their debut in high-temperature applications. It could lead to major changes for ...

A team of researchers have created a new type of soft circuit electronics that can be used in cell phones and laptops. The soft circuitry is intended to replace inflexible, rigid materials that use ...

German researchers have a line on 3D printed circuitry, but with a twist. Using silver nanowires and a polymer, they’ve created flexible and transparent circuits. Nanowires in this context are only 20 ...

A research cooperation has developed a process suitable for 3D printing that can be used to produce transparent and mechanically flexible electronic circuits. The technique can enable new applications ...

Replacing the traditional wire complexity with Flexible printed circuits provide a unique medium for electric circuits. Flexible Circuit Technologies are produced by photolithographic technology. A ...

The Flexible Connections series flexible circuit assemblies and PCB connectors promise to preserve system performance with mechanical and signal integrity. The series includes flex assemblies, ...

Conductive ink is a great tool for printing flexible electronic circuits on surfaces. But these inks can be costly, they do not work on some materials, and devices to apply them can plug up. Now, ...

Warfighters one day may have electronics literally painted onto their uniforms thanks to a new technology for printing circuitry. The process involves spraying a film composed of carbon nanotubes onto ...

Two researchers of Responsive Environments, MIT Media Lab, have put to together a device that is an amazing array of musical instruments squeezed into one flexible package. Made using seven layers of ...