Abstract

We report the integration of a new liner stressor comprising diamond-like carbon (DLC) film over a p-channel transistor. A high compressive stress of 6.5 GPa was achieved in a high-stress film with a thickness of 27 nm. A 74% enhancement in drive current was observed for the strained device with DLC liner as compared to a control device without DLC liner. Due to its much higher intrinsic stress value compared to conventional SiN films, a thinner DLC layer can induce comparable amount of stress in the transistor channel compared to a thicker SiN. The DLC material is a potential next-generation high-stress and low-permittivity liner stressor material suitable for application in transistors with aggressively scaled pitch dimensions.