Title :
High-Performance and Stable Transparent Hf–In–Zn–O Thin-Film Transistors With a Double-Etch-Stopper Layer
Author :
Park, Joon Seok ; Kim, Tae Sang ; Son, Kyoung Seok ; Lee, Kwang-Hee ; Jung, Ji Sim ; Maeng, Wan-Joo ; Kim, Hyun-Suk ; Kim, Eok Su ; Park, Kyung-Bae ; Seon, Jong-Baek ; Kwon, Jang-Yeon ; Ryu, Myung Kwan ; Lee, Sangyoon
Author_Institution :
Display Lab., Samsung Adv. Inst. of Technol., Yongin, South Korea
Abstract :
Transparent hafnium indium zinc oxide thin-film transistors adopting single- and double-etch-stopper layers were evaluated. Compared to devices with a single SiOx etch stopper (ES) grown at 150°C, a double ES with a second SiOx film grown at 350°C provides a superior device performance such as improved subthreshold swing, threshold voltage, field effect mobility, and higher stability under a negative bias stress. The stretched-exponential analyses of the bias stress results indicate that the denser high-temperature SiOx protects more effectively the underlying semiconductor during the source/drain etch process and suppresses the generation of defect states therein.
Keywords :
etching; hafnium compounds; thin film transistors; Hf-In-Zn-O; double-etch-stopper layer; field effect mobility; negative bias stress; stable transparent thin-film transistors; subthreshold swing; superior device performance; threshold voltage; Charge carrier processes; Logic gates; Plasma temperature; Stability analysis; Stress; Thin film transistors; Etch stopper (ES); hafnium indium zinc oxide (HIZO); thin-film transistor (TFT);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2010.2065793
