This panel session dives into the technical challenges in the field of flexible electronics—and what engineers need to know ...

To address these characteristics in a new way, researchers at the University of Illinois Urbana-Champaign successfully integrated flexible electronics with a three-ply, self-deployable boom that ...

With significant expertise in multifunctional plastics manufacturing, nanoscale manufacturing and printed electronics, UMass Lowell develops innovative flexible electronics and smart textiles that ...

A team of international researchers has successfully created a new type of highly conductive 2D polymer, opening the door to ...

The Center for Nanomanufacturing is a founding partner of the Flexible Hybrid Electronics Manufacturing Innovation Institute (FHE-MII), called NextFlex. This Institute is the seventh of President ...

Unlike conventional transistors that rely on inorganic semiconductors like silicon, OFETs leverage the unique properties of organic materials to enable novel applications in flexible, printable, and ...

His current research interests include organic/plastic/flexible electronics, bioelectronics, nanomaterial, nanoelectronics and polymer chemistry. Ravinder Dahiya is Professor in the Department of ...

Advanced and emerging materials for flexible electronics, including plastic, molecular and inorganic systems, two-dimensional materials, biomaterials, nanofibers, degradable materials Flexible ...

Engineers have developed a new type of wearable battery that’s more flexible, stretchable, and breathable, thanks to a unique hole pattern.