Conspectus Organic donor–acceptor (DA) complexes have attracted wide attention in recent
decades, resulting in the rapid development of organic binary system electronics. The …

Construction of crystalline homo/heteroaggregation at micro/nanometer level from organic π‐
conjugated systems is of great importance because the controllable morphologies (ie, size …

The molecular‐level motions of a coronene‐based supramolecular rotator are amplified into
macroscopic changes of crystals by co‐assembly of coronene and TCNB (1, 2, 4, 5 …

Organic semiconductors are being perceived as promising materials, which will complement
or even substitute inorganic semiconductors, for the development of futuristic versatile …

Semiconductor charge transfer (CT) cocrystals are an emerging class of molecular materials
which combines the characteristics of the constituent molecules in order to tune physical …

Comprehensive investigations of crystal structures, electrical transport properties and
theoretical simulations have been performed over a series of sulfur-bridged annulene-based …

The hydrogen bond is undoubtedly one of the most important non-covalent interactions.
Among the several types of the hydrogen bonds, the CH–π interaction is a relatively new …

Dynamic molecular processes, such as short-or long-range proton (H+) and ion (M+)
motions, and molecular rotations in electrical conducting and magnetic molecular …

The formation of three mixed binary charge transfer (CT) cocrystals with tunable
photoluminescence behavior featuring both CT interaction and directional hydrogen …

Organic charge transfer complexes (CTCs) with near-infrared absorption received growing
interest in the past years, but the details of their photophysics, especially in thin films, remain …