Effect of Grain Boundary Protrusion on Electrical Performance of Low Temperature Polycrystalline Silicon Thin Film Transistors

Abstract

We studied the impact of grain boundary (GB) protrusion on the electrical properties of low temperature polycrystalline silicon thin film transistors. The analysis of atomic force microscopy and transmission electron microscopy images indicate the grain size of 350 nm and a protrusion height of 35 nm. The transfer and output characteristics are well fitted by technology computer-aided design using two different density of states for poly-Si grain and GB, respectively. From 2-D contour mapping, a drastic reduction of hole concentration ( sim 5times 10^16,mathrmcm^-3 ) at GB protrusion site was obtained as compared to the grain ( sim 3times 10^18,mathrmcm^-3 ). Trapping concentration at GB is much higher, which leads to the reduction in the mobility.