Low-Defect, High Molecular Weight Indacenodithiophene (IDT) Polymers Via a C–H Activation: Evaluation of a Simpler and Greener Approach to Organic Electronic Materials
Copyright policy )Low-Defect, High Molecular Weight Indacenodithiophene (IDT) Polymers Via a C–H Activation: Evaluation of a Simpler and Greener Approach to Organic Electronic Materials
The development, optimization, and assessment of new methods for the preparation of conjugated materials is key to the continued progress of organic electronics. Direct C–H activation methods have emerged and developed over the last 10 years to become an invaluable synthetic tool for the preparation of conjugated polymers for both redox-active and solid-state applications. Here, we evaluate direct (hetero)arylation polymerization (DHAP) methods for the synthesis of indaceno[1,2-b:5,6-b′]dithiophene-based polymers. We demonstrate, using a range of techniques, including direct visualization of individual polymer chains via high-resolution scanning tunneling microscopy, that DHAP can produce polymers with a high degree of regularity and purity that subsequently perform in organic thin-film transistors comparably to those made by other cross-coupling polymerizations that require increased synthetic complexity. Ultimately, this work results in an improved atom economy by reducing the number of synthetic steps to access high-performance molecular and polymeric materials.
- University of Warwick United Kingdom
- University of Oxford United Kingdom
- University of Oxford United Kingdom
- Kennesaw State University United States
- Kennesaw State University United States
Chemical Sciences not elsewhere classified, indaceno [ 1, conjugated materials, greener approach, access high, TK, subsequently perform, evaluate direct, b ′] dithiophene, high degree, Biochemistry, improved atom economy, conjugated polymers, based polymers, performance molecular, QD, Molecular Biology, work results, last 10 years, polymeric materials, synthetic steps, 540, organic electronics, state applications, continued progress, film transistors comparably, organic electronic materials, organic thin, produce polymers, polymers via, Medicine, including direct visualization, invaluable synthetic tool, coupling polymerizations, Biotechnology, Developmental Biology
Chemical Sciences not elsewhere classified, indaceno [ 1, conjugated materials, greener approach, access high, TK, subsequently perform, evaluate direct, b ′] dithiophene, high degree, Biochemistry, improved atom economy, conjugated polymers, based polymers, performance molecular, QD, Molecular Biology, work results, last 10 years, polymeric materials, synthetic steps, 540, organic electronics, state applications, continued progress, film transistors comparably, organic electronic materials, organic thin, produce polymers, polymers via, Medicine, including direct visualization, invaluable synthetic tool, coupling polymerizations, Biotechnology, Developmental Biology
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