Title :
Light Effect on Negative Bias-Induced Instability of HfInZnO Amorphous Oxide Thin-Film Transistor
Author :
Kwon, Dae Woong ; Kim, Jang Hyun ; Chang, Ji Soo ; Kim, Sang Wan ; Kim, Wandong ; Park, Jae Chul ; Kim, Chang Jung ; Park, Byung-Gook
Author_Institution :
Seoul Nat. Univ., Seoul, South Korea
fDate :
4/1/2011 12:00:00 AM
Abstract :
For the first time, a comprehensive study is done regarding the stability under simultaneous application of light and gate dc bias in amorphous hafnium-indium-zinc-oxide (α-HIZO) thin-film transistors (TFTs). Subthreshold swing (SS) degradation, a negative threshold voltage (Vth) shift, and the occurrence of hump are observed in transfer curves after applying a negative gate bias and light stress. Based on the retention test at room temperature and the hysteresis analysis, it is revealed that all these phenomena result from hole trapping in the gate insulator. Moreover, it is proven that the SS degradation and hump occurrence are mainly attributed to hole trapping in SiO2 at the edge regions along the channel length/width directions and that a negative Vth shift is derived from hole trapping in the gate insulator far from the SiO2/HIZO interface.
Keywords :
hafnium compounds; indium compounds; silicon compounds; thin film transistors; zinc compounds; SiO2-HfInZnO; amorphous oxide thin-film transistor; channel length-width directions; gate dc bias; gate insulator; hole trapping; hump occurrence; hysteresis analysis; light effect; light stress; negative bias-induced instability; negative gate bias; negative threshold voltage; retention test; subthreshold swing degradation; temperature 293 K to 298 K; transfer curves; Charge carrier processes; Degradation; Insulators; Logic gates; Radiation effects; Stress; Thin film transistors; Hafnium–indium–zinc–oxide (HIZO) thin-film transistors (TFTs); light-induced effect on HIZO TFT; stability of HIZO TFT;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2011.2109388
