Selective electroless copper for VLSI interconnection

Cu is studied as a candidate for low-resistance VLSI interconnection. Simulation studies show that for effective channel length less than 0.5 mu m, the RC time constant of interconnection is a major part of the total delay. By reducing the resistivity of the interconnect, the operating speed can be increased by more than 20% without any change in design rule. A selective electroless deposition process was used to solve the Cu patterning difficulty. Patterns of 2.2- mu m pitch have been achieved with this process. The copper contamination issue is also studied; dielectric films such as silicon oxynitride and silicon nitride are shown to be effective in stopping Cu diffusion. By coating a thin Ni film on Cu, Cu corrosion can be reduced from 0.2 mu /h to less than 0.05 mu m/h at 100 degrees C in 4% KCL solution.<<ETX>>

[1]  T. W. Sigmon,et al.  Diffusion of metals in silicon dioxide , 1983 .

[2]  P.-L. Pai,et al.  Copper as the future interconnection material , 1989, Proceedings., Sixth International IEEE VLSI Multilevel Interconnection Conference.

[3]  H. B. Bakoglu,et al.  A system-level circuit model for multi- and single-chip CPUs , 1987, 1987 IEEE International Solid-State Circuits Conference. Digest of Technical Papers.

[4]  T. Kwok,et al.  Effects of linelength and bend structure on electromigration lifetime in Al-Cu submicron interconnects , 1988, 1988. Proceedings., Fifth International IEEE VLSI Multilevel Interconnection Conference.

[5]  C. Ting,et al.  Selective Electroless Metal Deposition for Via Hole Filling in VLSI Multilevel Interconnection Structures , 1989 .