Improved Electrical Characteristics of Amorphous Oxide TFTs Based on $hbox{TiO}_{x}$ Channel Layer Grown by Low-Temperature MOCVD

We report on the fabrication of n-type thin-film transistors (TFTs) based on $hbox{TiO}_{x}$ channels grown by the metal–organic chemical vapor deposition method with the chamber temperature of 250 $^{circ}hbox{C}$. These TFTs exhibit ideal characteristics with the flat saturation, low subthreshold swing, and narrow hysteresis window, all of which are a clear improvement from our previous work based on $ hbox{TiO}_{2}$ nanoparticles. The $hbox{TiO}_{x}$ film in this letter is identified to be in the amorphous phase from X-ray diffraction analysis, and its carrier density is estimated to be $hbox{2.6} times hbox{10}^{17} hbox{cm}^{-3}$ from the transmission line model and analysis of TFT on-resistance measured at various gate biases and channel lengths.