Recent advances in the power conversion efficiency (PCE) of organic solar cells (OSCs)
have greatly enhanced their commercial viability. Considering the technical standards (eg …

Recent progress in electronic skin or e‐skin research is broadly reviewed, focusing on
technologies needed in three main applications: skin‐attachable electronics, robotics, and …

Polymeric electronic materials have enabled soft and stretchable electronics. However, the
lack of a universal micro/nanofabrication method for skin-like and elastic circuits results in …

Soft and conformable wearable electronics require stretchable semiconductors, but existing
ones typically sacrifice charge transport mobility to achieve stretchability. We explore a …

Thin-film field-effect transistors are essential elements of stretchable electronic devices for
wearable electronics,. All of the materials and components of such transistors need to be …

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

Wearable electronics are attracting increasing interest due to the emerging Internet of
Things (IoT). Compared to their inorganic counterparts, stretchable organic semiconductors …

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 …

Organic electrochemical transistors (OECTs) represent an emerging device platform for next‐
generation bioelectronics owing to the uniquely high amplification and sensitivity to …

Human skin is a remarkable organ. It consists of an integrated, stretchable network of
sensors that relay information about tactile and thermal stimuli to the brain, allowing us to …