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Synthetic Route to Conjugated Donor–Acceptor Polymer Brushes via Alternating Copolymerization of Bifunctional Monomers

Alternating donor–acceptor conjugated polymers, widely investigated due to their applications in organic photovoltaics, are obtained mainly by cross-coupling reactions. Such a synthetic route exhibits limited efficiency and requires using, for example, toxic palladium catalysts. Furthermore, the coa...

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Published in:	Polymers 2022-07, Vol.14 (13), p.2735
Main Authors:	Grobelny, Anna, Lorenc, Karolina, Skowron, Łucja, Zapotoczny, Szczepan
Format:	Article
Language:	English
Subjects:	Brushes Catalysts Chemical reactions Copolymerization Cross coupling Ferric chloride Macromolecules Maleic anhydride Monomers Palladium Photovoltaic cells Polymer solubility Polymerization Polymers Sulfur
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description	Alternating donor–acceptor conjugated polymers, widely investigated due to their applications in organic photovoltaics, are obtained mainly by cross-coupling reactions. Such a synthetic route exhibits limited efficiency and requires using, for example, toxic palladium catalysts. Furthermore, the coating process demands solubility of the macromolecules, provided by the introduction of alkyl side chains, which have an impact on the properties of the final material. Here, we present the synthetic route to ladder-like donor–acceptor polymer brushes using alternating copolymerization of modified styrene and maleic anhydride monomers, ensuring proper arrangement of the pendant donor and acceptor groups along the polymer chains grafted from a surface. As a proof of concept, macromolecules with pendant thiophene and benzothiadiazole groups were grafted by means of RAFT and metal-free ATRP polymerizations. Densely packed brushes with a thickness up to 200 nm were obtained in a single polymerization process, without the necessity of using metal-based catalysts or bulky substituents of the monomers. Oxidative polymerization using FeCl3 was then applied to form the conjugated chains in a double-stranded (ladder-like) architecture.
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subjects	Brushes Catalysts Chemical reactions Copolymerization Cross coupling Ferric chloride Macromolecules Maleic anhydride Monomers Palladium Photovoltaic cells Polymer solubility Polymerization Polymers Sulfur
title	Synthetic Route to Conjugated Donor–Acceptor Polymer Brushes via Alternating Copolymerization of Bifunctional Monomers
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