Conjugated semiconducting polymers are key active materials for printable electronics, sensors and biosensors, organic photovoltaics, organic light emitting devices, and more. The research in the field developed very efficient materials and sound structure property relationships, thus making a case for a transition from laboratory to industrial environment. At this critical juncture, sustainability, and ease of scaling up are at least as important as performances, to the point that efficient materials on a lab scale could become unpractical for the industry. The development of more efficient synthetic protocols and the complete removal of all organic solvents from both the synthesis and the processing of semiconducting polymers can help tremendously to improve sustainability and reduce costs. It is shown that the use of an aqueous dispersion of the food grade surfactant lecithin as the medium, enables the synthesis and processing of the representative semiconducting alternating copolymer poly (9,9-dioctylfluorene-alt-bithiophene) (PF8T2) in high yield and high quality and with transistor performances comparable with those obtained with reference materials synthetized and processed from volatile organic solvents.

Ceriani, C., Scagliotti, M., Losi, T., Luzio, A., Mattiello, S., Sassi, M., et al. (2023). Organic Solvent Free Synthesis and Processing of Semiconducting Polymers for Field Effect Transistors in Waterborne Dispersions. ADVANCED ELECTRONIC MATERIALS, 9(5 (May 2023)) [10.1002/aelm.202201160].

Organic Solvent Free Synthesis and Processing of Semiconducting Polymers for Field Effect Transistors in Waterborne Dispersions

Ceriani C.
Primo
Membro del Collaboration Group
;
Mattiello S.;Sassi M.;Pianta N.;Beverina L.
2023

Abstract

Conjugated semiconducting polymers are key active materials for printable electronics, sensors and biosensors, organic photovoltaics, organic light emitting devices, and more. The research in the field developed very efficient materials and sound structure property relationships, thus making a case for a transition from laboratory to industrial environment. At this critical juncture, sustainability, and ease of scaling up are at least as important as performances, to the point that efficient materials on a lab scale could become unpractical for the industry. The development of more efficient synthetic protocols and the complete removal of all organic solvents from both the synthesis and the processing of semiconducting polymers can help tremendously to improve sustainability and reduce costs. It is shown that the use of an aqueous dispersion of the food grade surfactant lecithin as the medium, enables the synthesis and processing of the representative semiconducting alternating copolymer poly (9,9-dioctylfluorene-alt-bithiophene) (PF8T2) in high yield and high quality and with transistor performances comparable with those obtained with reference materials synthetized and processed from volatile organic solvents.
Articolo in rivista - Articolo scientifico
conjugated polymers; dispersion polymerization; micellar catalysis; organic field effect transistors; processing from water; sustainability;
English
21-mar-2023
2023
9
5 (May 2023)
2201160
none
Ceriani, C., Scagliotti, M., Losi, T., Luzio, A., Mattiello, S., Sassi, M., et al. (2023). Organic Solvent Free Synthesis and Processing of Semiconducting Polymers for Field Effect Transistors in Waterborne Dispersions. ADVANCED ELECTRONIC MATERIALS, 9(5 (May 2023)) [10.1002/aelm.202201160].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/410305
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