Intra-level voltage ramping-up to dielectric breakdown failure on Cu/porous low-k interconnections in 45 nm ULSI generation

The degradation of reliability for intra-level voltage-breakdown in the 45 nm generation node has become an increasingly important issue with the introduction of porous low-k dielectrics. The dominant failure mechanism for lower voltage ramping-up to dielectric breakdown and higher leakage current was that more electrons easily transported through the percolation path in intra-level porous low-k interconnections damaged from HF corrosion. An optimal ultraviolet curing process and a less NH3 plasma pre-treatment on porous low-k dielectrics before the SiCN capping layer are developed to improve performance in both of these cases. The stiff configuration of the reconstruction of Si–O network structures and less HF corrosion is expected to have high tolerance to electrical failure. As a result, the proposed model of this failure facilitates the understanding of the reliability issue for Cu/porous low-k interconnections in back-end of line (BEOL) beyond 45 nm nodes.