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 ...

Researchers have advanced a decades-old challenge in the field of organic semiconductors, opening new possibilities for the future of electronics. The researchers have created an organic semiconductor ...

But the potential for future applications of organic electronics extends far beyond today's mobile phone technology. Organic materials also present the possibility of devices that can interface with ...

The overall organic electronic analysis is determined to understand the profitable trends to gain a stronger foothold. The current organic ...

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 ...

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 ...

Merck KGaA (MKGAF) reports robust Q4 results with significant growth across sectors, despite challenges in Life Science and ...

Thioxanthones are fascinating organic compounds that have found their ... team has developed a method for extracting gold from electronics waste, then using the recovered precious metal as a ...