Abstract

At bending radius smaller than 2 mm, flexible low-temperature polycrystalline silicon thin-film transistors (LTPS TFTs) suffer from strong uniaxial mechanical stress and demonstrate severe degradation of electrical characteristics. Our previous study showed that repetitive mechanical uniaxial bending damages the gate insulator, causing carriers to trap into it. Here, degradation after channel width-axis direction bending was found to be more pronounced than after channel length-axis bending. In order to alleviate this degradation, an organic structure flexible LTPS TFT was proposed to enhance the mechanical stress endurance. After 100000 iterations of uniaxial mechanical bending at R = 2 mm, degradation nearly disappeared in devices with this organic trench structure.