Abstract
Organic ferroelectric-gate field-effect transistor (FET) memories were fabricated using pentacene and rubrene thin films as the semiconductors and a poly(vinylidene fluoride–tetrafluoroethylene) [P(VDF-TeFE)] thin film as the ferroelectric gate. The P(VDF-TeFE) film was prepared by spin-coating and annealing at 170 \(^\circ \)C for 2.5 h, and the pentacene was prepared by vacuum evaporation. In contrast, the rubrene thin film sheet was grown by physical vapor transport and placed onto a spin-coated P(VDF-TeFE) thin film layer. The polarization-electric field hysteresis of the P(VDF-TeFE) thin film was observed, and the obtained remanent polarization of 3.9 \(\upmu \)C/cm\(^2\) was sufficient for controlling the surface potential of pentacene or rubrene. A hysteresis loop was clearly observed in the drain current-gate voltage behavior of the ferroelectric-gate FET. In the case of the ferroelectric-gate FET with P(VDF-TeFE)/pentacene, the ON/OFF ratio of drain current was 830, and the carrier mobility was 0.11 cm\(^2\)/Vs. On the other hand, the maximum drain current of the FET with P(VDF-TeFE)/rubrene was 1.6\(\,\times \,\)10\(^{-6}\) A, which is about two orders of magnitude larger than that of the P(VDF-TeFE)-gate FET using the pentacene thin film. The mobility of the organic ferroelectric-gate FET using the rubrene thin film was 0.71 cm\(^2\)/Vs, which is 6.5 times larger than that of the FET with pentacene thin film.
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Kanashima, T., Okuyama, M. (2020). P(VDF-TeFE)/Organic Semiconductor Structure Ferroelectric-Gate FETs. In: Park, BE., Ishiwara, H., Okuyama, M., Sakai, S., Yoon, SM. (eds) Ferroelectric-Gate Field Effect Transistor Memories. Topics in Applied Physics, vol 131. Springer, Singapore. https://doi.org/10.1007/978-981-15-1212-4_11
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