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Processable High Electron Mobility π‐Copolymers via Mesoscale Backbone Conformational Ordering

Brian J. Eckstein, Ferdinand S. Melkonyan, Gang Wang, Binghao Wang, Eric F. Manley, Simone Fabiano, Alexandra Harbuzaru, Rocío Ponce Ortiz, Lin X. Chen, Antonio Facchetti, Tobin J. Marks

2021Advanced Functional Materials24 citationsDOIOpen Access PDF

Abstract

Abstract The synthesis and experimental/theoretical characterization of a new series of electron‐transporting copolymers based on the naphthalene bis(4,8‐diamino‐1,5‐dicarboxyl)amide (NBA) building block are reported. Comonomers are designed to test the emergent effects of manipulating backbone torsional characteristics, and density functional theory (DFT) analysis reveals the key role of backbone conformation in optimizing electronic delocalization and transport. The NBA copolymer conformational and electronic properties are characterized using a broad array of molecular/macromolecular, thermal, optical, electrochemical, and charge transport techniques. All NBA copolymers exhibit strongly aggregated morphologies with significant nanoscale order. Copolymer charge transport properties are investigated in thin‐film transistors and exhibit excellent electron mobilities ranging from 0.4 to 4.5 cm 2 V −1 s −1 . Importantly, the electron transport efficiency correlates with the film mesoscale order, which emerges from comonomer‐dependent backbone planarity and extension. These results illuminate the key NBA building block structure–morphology–bulk property design relationships essential for processable, electronics‐applicable high‐performance polymeric semiconductors.

Topics & Concepts

Materials scienceCopolymerDelocalized electronComonomerOrganic electronicsElectron mobilityChemical physicsPlanarity testingNanotechnologyPolymerCrystallographyTransistorOptoelectronicsOrganic chemistryChemistryComposite materialQuantum mechanicsVoltagePhysicsOrganic Electronics and PhotovoltaicsConducting polymers and applicationsAdvanced Memory and Neural Computing