flexible tagged posts

This prototype demonstrates the potential of a new technique for printing flexible, stretchable circuits. Credit: Jingyan Dong, North Carolina State University

Researchers from North Carolina State University have developed a new technique for directly printing metal circuits, creating flexible, stretchable electronics. The technique can use multiple metals and substrates and is compatible with existing manufacturing systems that employ direct printing technologies. “Flexible electronics hold promise for use in many fields, but there are significant manufacturing costs involved – which poses a challenge in making them practical for commercial use,” says Jingyan Dong, A/professor in NC State’s Edward P. Fitts Department of Industrial & Systems Engineering.

“Our approach should reduce cost a...

Thermally Activated Delayed Fluorescence Process in OLED Devices Credit: Osaka University

~Clue to development of light-weighted, flexible, high-contrast lighting. An international joint research group succeeded in developing a novel thermally activated delayed fluorescence (TADF) material which displays emission of light in colors from green to deep-red through Intersystem Crossing from the singlet to the triplet excitons, a world first. The results will contribute to R&D in white TADF light emitting devices for indoor and outdoor use through combination with TADF materials that emit light in shorter wavelengths (deep blue to yellow).

Over the last few decades, research on organic light-emitting diodes (OLEDs) has greatly advanced...

Over time, the zinc ions in MOF-5 (pink solutions) get replaced with cobalt ions, (blue solutions) demonstrating the dynamics of metal organic frameworks. Credit: American Chemical Society.

MOF’s have many potential apps: antimicrobial agents, H-storage materials and solar-cell components.

Despite their rigid-sounding name, MOF structures are also dynamic – much more so than previously thought. This discovery could lead to the synthesis of brand-new types of materials. As the name implies, MOFs are composed of networks of organic (carbon-based) compounds interspersed with metal ions. Many different combinations of metals and organic components exist, but much of what we know about these systems comes from a zinc and benzene di-acid framework called MOF5...