The effects of plasma treatment for low dielectric constant hydrogen silsesquioxane (HSQ)

Abstract

Low density materials, such as hydrogen silsesquioxane (HSQ), can offer lower dielectric constants. With HSQ, a low value of K can be achieved if the density of SiH bonding is maintained at a high level and the formation of –OH bonds and absorption or creation of water in the film is minimized. In this work, we have studied the use of hydrogen plasma to improve the quality of HSQ. In addition, the effects of N2 and O2 plasma post-treatments on HSQ are investigated. The leakage current of HSQ decreases as the H2 plasma treatment time is increased. However, the leakage current of HSQ increases as the N2 and O2 plasma treatment time is increased. A model is proposed to explain the role of hydrogen in HSQ. The hydrogen passivates the surface of porous HSQ. The H2 plasma treatment provides additional hydrogen passivation of the HSQ. On the other hand, the N2 and O2 plasma treatments reduce the hydrogen passivation of HSQ. As a result, both the leakage current and dielectric constant increase as the N2 and O2 plasma treatment time is increased. Finally, HSQ with H2 plasma treatment is used as the intermetal dielectric in a multilevel interconnection structure. Consistent with our model, the via resistance decreases with increasing H2 plasma treatment time.