Expanding the toolbox of the biology and electronics mutual conjunction is a primary aim of
bioelectronics. The organic electrochemical transistor (OECT) has undeniably become a …

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

In recent years, owing to unsatisfactory clinical imaging clarity and depths in the living body
for early diagnosis and prognosis, novel imaging modalities with high bioimaging …

Conducting polymers (CPs), thanks to their unique properties, structures made on-demand,
new composite mixtures, and possibility of deposit on a surface by chemical, physical, or …

Aromatic hydrocarbon belts (AHCBs) have fascinated scientists for over half a century
because of their aesthetically appealing structures and potential applications in the field of …

Nanostructured conjugated polymers are a type of electrochemically active organic material
with a high electronic conductivity, good electrochemical stability, and superior flexibility …

The field of organic electronics has been prolific in the last couple of years, leading to the
design and synthesis of several molecular semiconductors presenting a mobility in excess of …

The low n-doping efficiency of conjugated polymers with the molecular dopants limits their
availability in electrical conductivity, thermoelectrics, and other electric applications …

Low n‐doping efficiency and inferior stability restrict the thermoelectric performance of n‐
type conjugated polymers, making their performance lag far behind of their p‐type …

Emerging forms of soft, flexible, and stretchable electronics promise to revolutionize the
electronics industries of the future offering radically new products that combine multiple …