Organic electronics has made great progress in the past decades, which is inseparable from
the innovative development of organic electronic devices and the diversity of organic …

Effective passivation of defects at the buried interface between the perovskite absorber and
hole‐selective layer (HSL) is crucial for achieving high performance in inverted perovskite …

The development of novel physically unclonable functions (PUFs) is of growing interest and
fluorescent organic semiconductors (f‐OSCs) offer unique advantages of structural …

The effect of heteroalkyl (‐XR, X= Se, S, O) substitution on a series of molecular
semiconductors having a 3, 3′‐diheteroalkyl‐2, 2′‐bithiophene (XBT) central core is …

In this study, for the first time, n–i–p PSCs were fabricated using dopant-free 2, 7-dioctyl [1]
benzothieno [3, 2-b][1] benzothiophene (C8-BTBT) as the solution-processed hole …

Molecular engineering via functionalization has been a great tool to tune noncovalent
intermolecular interactions. Herein, we demonstrate three-dimensional highly crystalline …

A novel quinoidal thienoisoindigo (TII)‐containing small molecule family with
dicyanomethylene end‐cap** units and various alkyl chains is synthesized as n‐type …

Aiming to obtain novel functional semiconducting materials for their use in organic
electronics, the combination of strong donor moieties with electron-withdrawing units is one …

Benzothiophenes, activated by oxidation to the corresponding S‐oxides, undergo C− H/C−
H‐type coupling with phenols to give C4 arylation products. While an electron‐withdrawing …

Emissive organic semiconductors are highly demanding for organic light‐emitting transistors
(OLETs) and electrically pumped organic lasers (EPOLs). However, it remains a great …