Highly Transmissive, Processable, Highly Conducting and Stable Polythiophene Derivatives via Direct (Hetero)arylation Polymerization.
Catherine BeaumontThomas LemieuxStefania AivaliMona Hamidzad SangachinAkpeko GasonooTristan Marcoux St-PierreMarissa BélangerSerge BeaupréGregory C WelchMario LeclercPublished in: ACS macro letters (2024)
The development of modern optoelectronic devices increases the need for lightweight and flexible transparent conductors. It is thus essential to develop new eco-friendly materials that can be easily processed for the fabrication of such devices. For this purpose, the synthesis of self-doped, highly conducting, transmissive, and water-processable polythiophene derivatives was performed via the direct heteroarylation polymerization method and a protection/deprotection strategy. Stable conductivities up to 1000 S cm -1 have been obtained. Champion materials ( P1 and P7 ) were scaled and processed via the roll-to-roll compatible slot-die coating method to demonstrate their large area applicability. The best coated films exhibited optical transmittance greater than 79% at 550 nm with sheet resistances of 116 Ω □ -1 . These values are comparable to indium-tin oxide on plastic and thus present a viable alternative to metal oxide-based electrodes.