Daniel A. Carl

Adhesion studies of CVD copper metallization

Abstract The adhesion of chemical vapor deposition (CVD) Cu thin films to various barriers was observed to improve with a post-deposition anneal or a physical vapor deposition (PVD) Cu flash layer on the barrier before depositing CVD Cu. The ambient exposure of the barrier before the deposition of CVD Cu has been observed to lead to degradation of adhesion in both CVD Cu seed and CVD/PVD Cu high vacuum integrated metallization schemes. The integrated CVD and PVD Cu deposition scheme exhibits better adhesion due to the inherent annealing provided during the PVD deposition which is carried out at temperatures between 300 and 400°C. We have evaluated both qualitative and quantitative tests — tape test, Stud pull test and 4-point bend test — in understanding adhesion and observed that each of these tests give different details of interface breakdown.

Influence of diffusion barriers on the nucleation and growth of CVD Cu for interconnect applications

Abstract Nucleation and growth behavior of Cu influence strongly the macroscopic properties of the resultant films. In this work the nucleation of CVD Cu on different underlayer materials is studied. It is found that nucleation on bare diffusion barrier surfaces leads to island growth and, therefore, bad wetting and adhesion. An enrichment of F, O and carbon was found at the interface between the CVD Cu film and the diffusion barrier. However CVD Cu deposited on top of Ta with a 200-A PVD Cu layer on top results in good wetting. CVD Cu films grown on a PVD Cu layer expose a highly preferred 〈111〉 orientation. In this case SIMS analysis reveals a comparably low concentration of oxygen, carbon and flourine at the interface region between the CVD Cu and the barrier. These observations shed light on relevance of surface conditions for the CVD Cu deposition process. They significantly affect both film adhesion and crystal orientation, which are crucial for the use of CVD Cu as interconnect material.