Title :
The Influence of In/Zn Ratio on the Performance and Negative-Bias Instability of Hf–In–Zn–O Thin-Film Transistors Under Illumination
Author :
Kim, Hyun-Suk ; Park, Joon Seok ; Maeng, Wan-Joo ; Son, Kyoung Seok ; Kim, Tae Sang ; Ryu, Myungkwan ; Lee, Jiyoul ; Lee, Jae Cheol ; Ko, Gunwoo ; Im, Seongil ; Lee, Sang Yoon
Author_Institution :
Display Lab., Samsung Adv. Inst. of Technol., Yongin, South Korea
Abstract :
The performance and stability of hafnium-indium-zinc-oxide (HIZO) thin-film transistors (TFTs) are evaluated with respect to the relative content in In and Zn cations. While devices that incorporate an active layer with an In-rich composition exhibit higher field-effect mobility values, they undergo larger negative shifts in Vth upon negative-bias illumination stress (NBIS). Density-of-states analyses suggest that a higher In/Zn ratio in the semiconductor results in larger defect states in the vicinity of the semiconductor/gate-insulator interface. Accordingly, these defect states may act as carrier traps that accelerate the degradation of HIZO TFTs upon NBIS.
Keywords :
II-VI semiconductors; circuit stability; hafnium compounds; indium compounds; semiconductor thin films; thin film transistors; wide band gap semiconductors; HIZO thin-film transistor; HfInZnO; cation; density-of-states analysis; hafnium-indium-zinc-oxide thin-film transistor; higher field-effect mobility value; negative-bias illumination stress; negative-bias instability; semiconductor/gate-insulator interface; Lighting; Logic gates; Photonics; Stress; Thin film transistors; Zinc; Cation composition; Hf–In–Zn–O (HIZO); thin-film transistor (TFT);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2011.2160836
