Efforts to design devices emulating complex cognitive abilities and response processes of
biological systems have long been a coveted goal. Recent advancements in flexible …

Conducting polymers are extensively studied due to their outstanding properties, including
tunable electrical property, optical and high mechanical properties, easy synthesis and …

All-polymer solar cells (all-PSCs) consisting of polymer donors (P Ds) and polymer
acceptors (P As) have drawn tremendous research interest in recent years. It is due to not …

Stretchable electronics are mechanically compatible with a variety of objects, especially with
the soft curvilinear contours of the human body, enabling human‐friendly electronics …

Mechanical deformability underpins many of the advantages of organic semiconductors. The
mechanical properties of these materials are, however, diverse, and the molecular …

This article reviews several classes of compliant materials that can be utilized to fabricate
electronic muscles and skins. Different classes of materials range from compliant …

Stretchable electronic devices with intrinsically stretchable components have significant
inherent advantages, including simple fabrication processes, a high integrity of the stacked …

Conducting fibres and yarns promise to become an essential part of the next generation of
wearable electronics that seamlessly integrate electronic function into one of the most …

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

Conjugated polymers have evolved significantly in the past decade and have proven to be
more than poorly conducting plastics. Instead, improved understanding has resulted in …