论文信息 - Integrating bottom-up approach for ultra-thin copper diffusion barrier layers in interconnects

Integrating bottom-up approach for ultra-thin copper diffusion barrier layers in interconnects

The Back-End-of-Line (BEOL) technology scaling is reaching its limits. For further scaling of the Cu interconnects for nano-scale CMOS, thermally stable, ultra-thin and conformal layers of barrier materials with a good adhesion to copper and the underlying low-K are required. Self-assembled monolayers (SAMs) with thicknesses <; 2nm provide an ideal solution but wet chemistry is difficult to integrate into CMOS process flow. In this paper, we demonstrate the first vapor phase self-assembled monolayer (VPSAM) of Hydroxy-phenyl Zinc Porphyrin (ZnTPPOH) on inter-layer dielectric (ILD) materials with an application towards an effective copper diffusion barrier. The MOS devices with the ultra-thin barrier layer has been subjected to bias and temperature stress and successfully demonstrated to act as effective copper diffusion barrier.

V. Ramgopal Rao | Tejas R. Naik | V. Rao | M. Ravikanth | M. Ravikanth

[1] V. Ramgopal Rao,et al. Porphyrin Self-Assembled Monolayer as a Copper Diffusion Barrier for Advanced CMOS Technologies , 2012, IEEE Transactions on Electron Devices.

[2] G. Borghs,et al. Screening self-assembled monolayers as Cu diffusion barriers , 2008 .

[3] G. Beyer,et al. Evaluation of Metallization Options for Advanced Cu Interconnects Application , 2011 .

[4] V. Ramgopal Rao,et al. A Vapor Phase Self-Assembly of Porphyrin Monolayer as a Copper Diffusion Barrier for Back-End-of-Line CMOS Technologies , 2016, IEEE Transactions on Electron Devices.

[5] O. Richard,et al. Bottom‐Up Engineering of Subnanometer Copper Diffusion Barriers Using NH2‐Derived Self‐Assembled Monolayers , 2010 .