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EnglishStarting from the last decade, conductive polymers have been employed to realize a wide variety of devices applied in biological research, thanks to their favourable electrical, mechanical and biocompatibility properties in respect to traditional inorganic semiconductors. In this abstract, a few examples that illustrate the coupling between organic electronics and biology are considered, with a particular regard to poly(3,4-ethylenedioxytiophene) (PEDOT) based devices.
| Titolo: | Biological applications of conductive polymers |
| Autore/i: | ZIRONI, ISABELLA; MARZOCCHI, MARCO; CALIENNI, MARIA; FRABONI, BEATRICE; CASTELLANI, GASTONE |
| Autore/i Unibo: | |
| Anno: | 2011 |
| Titolo del libro: | Systems Biology for Health |
| Pagina iniziale: | 95 |
| Pagina finale: | 98 |
| Abstract: | Starting from the last decade, conductive polymers have been employed to realize a wide variety of devices applied in biological research, thanks to their favourable electrical, mechanical and biocompatibility properties in respect to traditional inorganic semiconductors. In this abstract, a few examples that illustrate the coupling between organic electronics and biology are considered, with a particular regard to poly(3,4-ethylenedioxytiophene) (PEDOT) based devices. |
| Data stato definitivo: | 19-mag-2017 |
| Appare nelle tipologie: | 4.01 Contributo in Atti di convegno |
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