Abstract

We investigated the effect of device configuration on the light-induced negative bias thermal instability of gallium indium zinc oxide transistors. The of back-channel-etch (BCE)-type transistors shifted by −3.5 V, and the subthreshold gate swing (SS) increased from 0.88 to 1.38 V/decade after negative bias illumination temperature stress for 3 h. However, etch-stopper-type devices exhibited small shifts of −0.8 V without degradation in the SS value. It is believed that the inferior instability of the BCE device is associated with the formation of an interfacial molybdenum (Mo) oxychloride layer, which occurs in the course of dry etching Mo using for source/drain patterning.