Abstract Donor–acceptor (D‐A) conjugated polymers have demonstrated great potential in
organic field‐effect transistors application, and their aggregated structure is a crucial factor …

The best-performing active layers for organic photovoltaics generally include semi-
paracrystalline polymers. However, the solution aggregation and molecular order …

Conjugated polymers exhibit a unique portfolio of electrical and electrochemical behavior,
which–paired with the mechanical properties that are typical for macromolecules–make …

The development of high-performance organic solar cells (OSCs) from the low-cost and
highly scalable polythiophene family has been garnering a fast-growing interest for their …

Fluorinated phenyl azides (FPA) enable photo-structuring of π-conjugated polymer films for
electronic device applications. Despite their potential, FPAs have faced limitations regarding …

Characterization of thermodynamic transitions and kinetic processes in optoelectronic
materials is critical for understanding the optimized processing conditions and final device …

A herein, a synthetic strategy of polymer semiconductors to optimize compatibility with
diarylethene (DAE)-based molecular switches and thus to maximize photoprogramming …

Modulating the segmental order in the morphology of conjugated polymers is widely
recognized as a crucial factor for achieving optimal electronic properties and mechanical …

Non-fullerene acceptor (NFA) aggregation is crucial in determining bulk-heterojunction
(BHJ) organic photovoltaic (OPV) performance. However, it is still a big challenge to …

Optimizing the orientation, crystallinity, and domain size of components within organic
photovoltaic (OPV) devices is key to maximizing their performance. Here a broadly …