Oxygen-Related Reliability of Amorphous InGaZnO Thin Film Transistors
Journal
IEEE Journal of the Electron Devices Society
Journal Volume
8
Pages
540-544
Date Issued
2020
Author(s)
Abstract
Effects of oxygen flow on positive bias temperature instability and hot carrier injection are investigated in Amorphous InGaZnO (IGZO) thin film transistors. The oxygen flow can suppress the oxygen vacancy density, but introduce shallow states near the conduction edges. The electron can tunnel into gate oxide via these shallow states. As a result, the IGZO channel with oxygen flow has more electrons trapped in the gate oxide than the channel without oxygen flow, leading to more positive VT shift after positive bias temperature instability. The IGZO without oxygen flow create oxygen vacancy (VO) in the channel. The hole generated by impact ionization during the hot electron injection can be trapped in VO to form VO2+. The VO2+ leads to less positive VT shift for IGZO channel without oxygen flow than with the oxygen flow. Since the impact ionization occurs near the drain, the positive VT shift of the reverse measurement (VSD > 0) is smaller than the forward measurement (VDS > 0) after hot electron injection. ? 2013 IEEE.
Subjects
Electron injection; Electrons; Gallium compounds; Gates (transistor); Hot electrons; Impact ionization; Oxygen; Semiconducting indium compounds; Thin film circuits; Thin film transistors; Thin films; Zinc compounds; Amorphous InGaZnO; Gate oxide; Hot carrier injection; Oxygen flow; Positive bias temperature instabilities; Shallow state; Vacancy density; Oxygen vacancies
Type
journal article