Title :
Bias-Dependent Effective Channel Length for Extraction of Subgap DOS by Capacitance–Voltage Characteristics in Amorphous Semiconductor TFTs
Author :
Hyunjun Choi ; Jungmin Lee ; Hagyoul Bae ; Sung-Jin Choi ; Dae Hwan Kim ; Dong Myong Kim
Author_Institution :
Sch. of Electr. Eng., Kookmin Univ., Seoul, South Korea
Abstract :
Bias-dependent effective channel length [Leff(VG)] is empirically modeled with a channel conduction factor [α(VG)] for a consistent capacitance-voltage (C-V) characterization of the intrinsic subgap density of states (DOS) over the bandgap with the sub-bandgap photoresponsive C-V technique in amorphous thin-film transistors. We define the effective channel length Leff(VG) through the product of the empirical channel conduction factor [α(VG)] and the metallurgical channel length (Lm). We confirm that the gate bias-dependent channel conduction effect is significant in the subgap DOS far from the conduction band edge (EC) due to the low conductivity of the channel under subthreshold bias.
Keywords :
amorphous semiconductors; electronic density of states; semiconductor device models; thin film transistors; amorphous semiconductor TFT; amorphous thin-film transistors; bias-dependent effective channel length; capacitance-voltage characteristics; channel conduction factor; conduction band edge; density of states; gate bias-dependent channel conduction effect; metallurgical channel length; subbandgap photoresponsive C-V technique; subgap DOS; subthreshold bias; Capacitance; Capacitance measurement; Electric potential; Logic gates; Solid modeling; Substrates; Thin film transistors; Amorphous; InGaZnO; channel conduction factor; effective channel length; gate bias-dependent; subgap density of states (DOS); thin-film transistor (TFT); thin-film transistor (TFT).;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2015.2443492
