Abnormal Degradation Behaviors Under Negative Bias Stress in Flexible p-Channel Low-Temperature Polycrystalline Silicon Thin-Film Transistors After Laser Lift-Off Process

Abstract

This work investigates the abnormal phenomena that are observed in electrical characteristics under negative bias stress (NBS) in flexible p-channel low-temperature polycrystalline silicon thin-film transistors (p-channel LTPS TFTs) after TFTs being lifted off from a rigid substrate. During the lift-off process, mechanical strain accumulates in the buffer layer due to the unilateral force, thus resulting in the generation of defects in the buffer layer. Therefore, abnormal degradation behaviors in electrical characteristics of the lifted-off TFTs were observed during negative gate bias stress. A study on physical mechanisms is introduced to describe such abnormal phenomena, and it is confirmed that defects are produced in the buffer layer when the LTPS TFTs are lifted off. In addition, different device dimensions were discussed to support our proposed model. The findings in this work are supported by the discussion of electrical characteristics, trap state extraction, and COMSOL simulation.