Unsubstituted π-electronic systems with expanded π-planes are highly desirable for improving charge-carrier transport in organic semiconductors. However, their poor solubility and high crystallinity pose major challenges in processing and assembly, despite their favorable electronic properties. The strategic arrangement of these molecular structures is crucial for achieving high-performance organic semiconductive materials. Unsubstituted π-electronic systems with expanded π-planes are highly desirable for improving charge-carrier transport in organic semiconductors. However, their poor solubility and high crystallinity pose major challenges in processing and assembly, despite their favorable electronic properties. The strategic arrangement of these molecular structures is crucial for achieving high-performance organic semiconductive materials. Nanophysics Nanomaterials Phys.org – latest science and technology news stories
Ion pairing with gold complexes offers new path for organic electronics
