The establishment of high-tech products relying on organic semiconductors demonstrates the remarkable technological maturity and competitiveness of these materials. This focus issue explores the ...

N-ink, a spinoff of the Linköping University, has developed conductive inks that can be used in the charge extracting layer ...

The discovery is a fundamental breakthrough in polymer research, as it opens up new possibilities for the development of more ...

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 ...

The rapid advancement of the electronics industry is opening new possibilities for the development of increasingly advanced ...

Q4 2024 Management View CEO Lori Koch emphasized strong Q4 results, highlighting a 7% sales growth and double-digit organic growth in the Electronics & Industrial (E&I) segment. Adjusted EPS reached ...

Researchers at Linköping University have succeeded in creating a close connection between individual cells and organic electronics. The study, published in Science Advances, lays the foundation for ...

The School of Physical and Chemical Sciences (SPCS) Organic Electronics/Photonics Cleanroom is located in room 125 of the GO Jones Building at Queen Mary University of London, Mile End campus. The ...

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