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Chain Stiffness of Donor–Acceptor Conjugated Polymers in Solution

Scott P. O. Danielsen, Colin R. Bridges, Rachel A. Segalman

2022Macromolecules77 citationsDOIOpen Access PDF

Abstract

The optoelectronic properties of conjugated polymers are dictated by their chain conformations, which depend on the interplay of delocalization of electrons along the π-conjugated backbone and the intrachain interactions of pendant side chains. Here, we leverage small-angle neutron scattering to measure the chain shapes of several classes of commonly used, high mobility donor–acceptor conjugated polymers in dilute solution. We find that these model conjugated polymers are semiflexible with persistence lengths ranging from several to hundreds of nanometers, dependent on the molecular structure of the polymer, indicating the importance of repeat unit geometry, particularly side-chain size and branching, on the overall chain conformations. The measured persistence lengths show good agreement with those calculated according to dihedral distributions predicted from density functional theory. Larger persistence lengths are shown to correlate with increased charge-carrier mobility, signifying the importance of rational molecular design to obtain high persistence length organic semiconductors and thus advantageous optoelectronic properties.

Topics & Concepts

Persistence lengthConjugated systemSide chainPolymerDelocalized electronChemical physicsDihedral angleBranching (polymer chemistry)Materials scienceAcceptorElectron mobilityChemistryCrystallographyPolymer chemistryMoleculeOrganic chemistryCondensed matter physicsOptoelectronicsHydrogen bondPhysicsOrganic Electronics and PhotovoltaicsPerovskite Materials and ApplicationsLuminescence and Fluorescent Materials