Zinc oxide (ZnO) nanoparticles are widely used as electron-transport layer (ETL) materials in
organic solar cells and are considered to be the candidate with the most potential for ETLs in …

In the aim to realize high performance semitransparent fully coated organic solar cells,
printable electrode buffer layers and top electrodes are two important key technologies. An …

Printed electronics is simultaneously one of the most intensely studied emerging research
areas in science and technology and one of the fastest growing commercial markets in the …

Advances in flexible and printable electronics have paved the way for large-area, and low-
cost wearable electronics that will revolutionize the way we detect and monitor ionizing …

Doctor-blade coating (DBC) is a roll-to-roll compatible high-throughput thin film fabrication
route with little solution wastage and is considered as a more scalable method for the …

There is growing interest in the development of novel materials and devices capable of
ionizing radiation detection for medical applications. Organic semiconductors are promising …

Organic semiconductors have emerged as promising neural interfacing materials due to
their innate biocompatibility, soft mechanical properties, and mixed electron/ion conduction …

A new printable organic semiconducting material combination as a tissue equivalent
photodetector for indirect X‐ray detection is demonstrated in this work. The device exhibits a …

A systematic approach for assessing organic photovoltaic (OPV) materials for large scale
production based on the efficiency, lifetime and cost has been developed. These parameters …

Solution-based organic solar cells (OSCs) offer great potential prospects within low-cost
electricity production. High-performance materials are traditionally low bandgap polymers …