Thiophene-based compounds have acquired increasing importance in materials science and technology, owing to their multiple functional properties, chemical robustness, and versatility. Research studies involving thiophene-based materials are highly interdisciplinary and range from organic electronics, in which the semiconducting properties of these materials are exploited in devices such as thin film field-effect transistors and solar cells, to bioimaging, in which their optical properties are exploited to monitor biological events involving proteins and DNA. Since all fields are concerned with the synthesis of new molecular structures, this chapter also deals with the most recent advances in the synthesis of oligo- and polythiophenes.
Barbarella, G., Zangoli, M., Di Maria, F. (2017). Synthesis and Applications of Thiophene Derivatives as Organic Materials. Cambridge : Academic Press Inc. [10.1016/bs.aihch.2017.01.001].
Synthesis and Applications of Thiophene Derivatives as Organic Materials
ZANGOLI, MATTIA;DI MARIA, FRANCESCA GIULIA
2017
Abstract
Thiophene-based compounds have acquired increasing importance in materials science and technology, owing to their multiple functional properties, chemical robustness, and versatility. Research studies involving thiophene-based materials are highly interdisciplinary and range from organic electronics, in which the semiconducting properties of these materials are exploited in devices such as thin film field-effect transistors and solar cells, to bioimaging, in which their optical properties are exploited to monitor biological events involving proteins and DNA. Since all fields are concerned with the synthesis of new molecular structures, this chapter also deals with the most recent advances in the synthesis of oligo- and polythiophenes.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
