Performance and off-state current mechanisms of low-temperature processed polysilicon thin-film transistors with liquid phase deposited SiO2 gate insulator

Polysilicon thin-film transistors (poly-Si TFT´s) with liquid phase deposition (LPD) silicon dioxide (SiO₂) gate insulator were realized by low-temperature processes (<620°C). The physical, chemical, and electrical properties of the new dielectric layer were clarified. The low-temperature processed (LTP) poly-Si TFT´s with W/L=200 μm/10 μm had an on-off current ratio of 4.95×10 ⁶ at V_D=5 V, a field effect mobility of 25.5 cm ²/V·s at V_D=0.1 V, a threshold voltage of 6.9 V, and a subthreshold swing of 1.28 V/decade at V_D=0.1 V. Effective passivation of defects by plasma hydrogenation can improve the characteristics of the devices. The off-state current (I_L) mechanisms of the LTP poly-Si TFT´s were systematically compared and clarified. The I_L is divided into three regions; the I_L is attributable to a resistive current in region I (low gate bias), to pure thermal generation current in region II (low drain bias), and to Frenkel-Poole emission current in region III (high gate bias and drain bias)