TDDB reliability improvement in Cu damascene by using a bilayer-structured PECVD SiC dielectric barrier

Author

Chiang, C.C. ; Chen, M.C. ; Wu, Z.C. ; Li, L.J. ; Jang, S.M. ; Yu, C.H. ; Liang, M.S.

Author_Institution

Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan

fYear

2002

fDate

2002

Firstpage

200

Lastpage

202

Abstract

This work investigates the thermal stability and barrier characteristics of two species of silicon carbide dielectric films, α-SiCN with a dielectric constant of 4.9 and α-SiC with a dielectric constant of 3.8. The TDDB lifetime of Cu damascene metallization structure is greatly improved by using a α-SiCN/α-SiC bilayer dielectric stack as the etching stop layer (ESL). This improvement is presumably due to the α-SiC dielectric´s lower leakage current, absence of nitridation on Cu surface, and better adhesion on Cu as well as OSG intermetal dielectric (IMD), though the α-SiC film has a very slow deposition rate. We believe that the α-SiCN/α-SiC bilayer dielectric is a favorable combination for the ESL because α-SiCN can protect α-SiC from plasma attack during the photoresist stripping.

Keywords

adhesion; copper; dielectric thin films; electric breakdown; integrated circuit interconnections; integrated circuit metallisation; integrated circuit reliability; leakage currents; plasma CVD; protective coatings; semiconductor-insulator boundaries; silicon compounds; sputter etching; α-SiC film; α-SiCN film; α-SiCN/α-SiC bilayer dielectric stack; Cu adhesion; Cu damascene metallization; Cu surface nitridation; Cu-SiCN; Cu-SiCN-SiC; ESL; OSG intermetal dielectric adhesion; TDDB reliability; barrier characteristics; bilayer-structured PECVD SiC dielectric barrier; deposition rate; dielectric constant; etching stop layer; leakage current; photoresist stripping; plasma attack protection; silicon carbide dielectric films; thermal stability; Adhesives; Dielectric constant; Dielectric films; Etching; Leakage current; Metallization; Plasma applications; Protection; Silicon carbide; Thermal stability;

fLanguage

English

Publisher

ieee

Conference_Titel

Interconnect Technology Conference, 2002. Proceedings of the IEEE 2002 International

Print_ISBN

0-7803-7216-6

Type

conf

DOI

10.1109/IITC.2002.1014933

Filename

1014933