Abstract
We report the fabrication of bottom gate a-IGZO TFTs based on HfO2 stacked dielectrics with decent electrical characteristics and bias stability. The microscopic, electrical, and optical properties of room temperature deposited a-IGZO film with varied oxygen content were explored. In order to suppress the bulk defects in the HfO2 thin film and hence maximize the quality, surface modification of the SiNx film was investigated so as to achieve a more uniform layer. The root mean square (RMS) roughness of SiNx/HfO2/SiNx (SHS) stacked dielectrics was only 0.66 nm, which was reduced by 35% compared with HfO2 single film (1.04 nm). The basic electrical characteristics of SHS-based a-IGZO TFT were as follows: Vth is 2.4 V, μsat is 21.1 cm2 V−1 s−1, Ion/Ioff of 3.3 × 107, Ioff is 10−11 A, and SS is 0.22 V/dec. Zr-doped HfO2 could form a more stable surface, which will decrease the bulk defect states so that the stability of device can be improved. It was found that the electrical characteristics were improved after Zr doping, with a Vth of 1.4 V, Ion/Ioff of 108, μsat of 19.5 cm2 V−1 s−1, Ioff of 10−12 A, SS of 0.18 V/dec. After positive gate bias stress of 104 s, the ΔVth was decreased from 0.43 V (without Zr doping) to 0.09 V (with Zr doping), the ΔSS was decreased from 0.19 V/dec to 0.057 V/dec, respectively, which shows a meaningful impact to realize the long-term working stability of TFT devices.
Highlights
In recent years, with the development of flat panel display (FPD), the traditional cathode ray tube (CRT) display has been gradually eliminated, which is replaced by liquid crystal display (LCD) and organic light emitting diode (OLED)
Oxide semiconductor TFTs represented by amorphous InGaZnO (a-IGZO) have been widely studied with higher carrier mobility (>10 cm2 V−1 s−1) and switching current ratio (>107), which can meet the requirements of OLEDs for mobility, response speed, and driving current [3,4,5]
We have studied the process and device characteristics of a-IGZO TFT based on HfO2 stacked dielectrics
Summary
With the development of flat panel display (FPD), the traditional cathode ray tube (CRT) display has been gradually eliminated, which is replaced by liquid crystal display (LCD) and organic light emitting diode (OLED). A-IGZO film is easy to react with water vapor and movable ions in the air, which lead to the movement of threshold voltage (Vth), resulting in poor repeatability and stability of the device [7,8]. This instability can be improved by TFT device structure [9], dielectric material selection [10], and post-processing [11,12]
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