Polymeric semiconductors have demonstrated great potential in the mass production of low‐
cost, lightweight, flexible, and stretchable electronic devices, making them very attractive for …

The electronic devices that play a vital role in our daily life are primarily based on silicon and
are thus rigid, opaque, and relatively heavy. However, new electronics relying on polymer …

Due to their low-temperature processing properties and inherent mechanical flexibility,
conjugated polymer field-effect transistors (FETs) are promising candidates for enabling …

Over the last 5 years, research on the synthesis, device engineering, and device physics of
solution‐processed small molecule solar cells (SMSCs) has rapidly expanded …

Conjugated polymers with glycol-based chains, are emerging as a material class with
promising applications as organic mixed ionic-electronic conductors, particularly in …

Do** is a crucial strategy to enhance the performance of various organic electronic
devices. However, in many cases, the random distribution of dopants in conjugated …

Organic electronics is a promising field spanning a wide range of applications, with
unrivaled advantages in low production cost, versatility in material synthesis, and …

Essentially all research done to date on the mechanical properties of polymeric
semiconductors (eg, for organic photovoltaics and thin-film transistors) has had the …

Polymer semiconductors have been experiencing a remarkable improvement in electronic
and optoelectronic properties, which are largely related to the recent development of a vast …

For wearable and implantable electronics applications, develo** intrinsically stretchable
polymer semiconductor is advantageous, especially in the manufacturing of large‐area and …