Solution processability of polymer semiconductors becomes an unfavorable factor during
the fabrication of pixelated films since the underlying layer is vulnerable to subsequent …

Patterning organic thin-film transistors (OTFTs) is critical in achieving high electronic
performance and low power consumption. We report on a high-yield, low-complexity …

All-solution processing of large-area organic electronics requires multiple steps of patterning
and stacking of various device components. Here, we report the fabrication of highly …

An upscalable, self‐aligned patterning technique for manufacturing high‐performance,
flexible organic thin‐film transistors is presented. The structures are self‐aligned using a …

Conspectus In recent decades, there has been rapid development in the field of polymer
semiconductors, particularly those based on conjugated donor–acceptor (D–A) polymers …

Organic semiconductors have opened up many new electronic applications, enabled by
properties like flexibility, low-cost manufacturing, and biocompatibility, as well as improved …

Organic thin-film transistors (OTFTs) have attracted a great deal of interest because of their
potential for use in electronic devices, such as electronic paper,[1–3] sensors,[4–6] and …

Highly crystalline thin films of organic semiconductors offer great potential for fundamental
material studies as well as for realizing high‐performance, low‐cost flexible electronics. The …

Many applications that rely on organic electronic circuits still suffer from the limited switching
speed of their basic elements–the organic thin film transistor (OTFT). For a given set of …

Printing is an emerging approach for low-cost, large-area manufacturing of electronic
circuits, but it has the disadvantages of poor resolution, large overlap capacitances, and film …