10:30 〜 10:45
▼ [9a-Z20-6] Electric Field Thermopower Modulation Analyses of the Channel Thickness for SnO2 Thin Film Transistors
キーワード:Transparent thin film transistor, Amorphous SnO2, Electric field thermopower modulation
Recently, we clarified the operation mechanism of a-SnO2 TTFT by field thermopower modulation analyses. The result showed that a 1.7 ± 0.4 nm-thick effective conducting channel formed at the interface between gate insulator and conducting channel with a 2.5-nm-thick depletion layer from the top surface in a 4.2-nm-thick bottom-gate top-contact type a-SnO2 TTFT without any surface passivation. To further clarify the operating mechanism of a-SnO2 TTFT, we measured the electric field modulated thermopower of the a-SnO2 TTFTs with different thicknesses. The resultant a-SnO2 TTFTs showed a decreased ION/IOFF as increased the thickness of the SnO2 conducting channel. The teff ≡ ns/n3D of the conducting a-SnO2 channel increased with the thickness of the SnO2 conducting channel. The 4.2 nm-thick SnO2 TTFT shows the smallest teff with the best ION/IOFF performance. From the thickness of the a-SnO2 film and the teff, the carrier depletion depth at the top surface was concluded to be around 3−4 nm of the a-SnO2 film, which shows a similar depletion length as reported data. The present results may provide the fundamental design concept of a-SnO2 TTFT device.