Interfacial engineering has long been a vital means of improving thin-film device
performance, especially for organic electronics, perovskites, and hybrid devices. It greatly …

Organic molecular semiconductors have been paid great attention due to their advantages
of low-temperature processability, low fabrication cost, good flexibility, and excellent …

benzothieno [3, 2‐b] benzothiophene (BTBT), with two benzene rings as the outermost rings,
is referred to as diacene‐fused ladder‐type π‐conjugated thienothiophenes. During the last …

Two-dimensional conductive metal–organic frameworks (2D conductive MOFs) with π–d
conjugations exhibit high electrical conductivity and diverse coordination structures, making …

Organic field-effect transistors (OFETs) refer to field-effect transistors that use organic
semiconductors as channel materials. Owing to the advantages of organic materials such as …

Polarons exist when charges are injected into organic semiconductors due to their strong
coupling with the lattice phonons, significantly affecting electronic charge‐transport …

Organic electronics has become one of the fastest developing fields with exciting advances
in discovering novel organic semiconductors, enhancing charge carrier mobility, and …

Organic charge-transfer cocrystals are composed of an electron-rich donor molecule and an
electron-deficient acceptor molecule, which are bonded together by intermolecular …

Inorganic semiconductor Ag 2 Te 1-x S x has been recently found to exhibit unexpected
plastic deformation with compressive strain up to 30%. However, the origin of the abnormal …

Small‐molecule organic semiconductors are promising materials for applications ranging
from solar cells to medical sensors. Their nearly infinite design space means that, in theory …