Transconductance Amplification by the Negative Capacitance in Ferroelectric-Gated P3HT Thin-Film Transistor

With lots of interest in negative capacitance field-effect transistors for ultralow-power complementary metal-oxide-semiconductor technology, negative capacitance thin-film transistors (NCTFTs) have also received much attention. Although previous studies on NCTFTs were done, the NC effect in organic-based TFTs was not studied yet. In this paper, P(VDF-TrFE) ferroelectric-gated P3HT semiconductor channel TFTs are experimentally demonstrated with solution-based fabrication process. Especially, this paper shed light on the NC effect in the organic based TFTs. The step-up current-voltage characteristics are repeatedly and reliably observed in diverse TFTs, and then, with the results, transconductance (g m ) amplification implemented by the negative capacitance was delved. Moreover, with the aid of ferroelectric polarization switching, super steep-switching characteristic of the organic-based TFT was experimentally confirmed. These experimental results and discussion would be helpful in understanding NC effects in TFTs.