This review highlights key strategies in structural engineering for achieving near-IR (NIR) optical absorption with conjugated polymers (NIR-CPs), and it details their utility in various organic electronic device applications.
Intrinsically stretchable all-polymer solar cells with exceptional stability, stretchability, mechanical robustness (1000 cycles at 50% strain) and improved output power were developed via entangled polymer additive, which is widely applicable.
This study introduced an additional electronic traps (ZnO nanoparticles) into the dielectric layer of the organic phototransistor, obtaining a high Ilight/Idark and an ultra-high detectivity while keeping the response time unchanged.
Naphthalene diimide covalent-organic framework are introduced as a novel solid-state superprotonic conduction electrolyte, demonstrating an expanded electrochemical stability window and stable cycling performance in proton batteries.
This study shows the evolution of polaron/bipolaron formation during the reduction of an n-type polymer, naphthalenediimide dithienylvinylene (NDI-TVT), and how the optical absorption spectra evolve with reduction levels in gas and solvent phases.