1. Barrier capability of Zr–N films with titanium addition against copper diffusion
- Author
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Wang, Ying, Cao, Fei, Yang, Xiao-dong, and Ding, Ming-hui
- Subjects
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KIRKENDALL effect , *THIN films , *COPPER , *INTEGRATED circuit interconnections , *MAGNETRON sputtering , *MICROFABRICATION , *X-ray diffraction , *X-ray photoelectron spectroscopy - Abstract
Abstract: Zr–Ti–N film prepared by sputtering deposition has been employed as a potential diffusion barrier for Cu metallization. It is thought that the existing states of Ti and Zr in the films are Ti–N and Zr–N phase in Zr–Ti–N films. Material analysis by XRD, XPS and sheet resistance measurement reveal that the failure of Zr–N film is mainly due to the formation of Cu3Si precipitates at the Zr–N/Si interface by Cu diffusion through the grain boundaries or local defects of the Zr–N barrier layer into Si substrate. In conjunction with sheet resistance measurement, XRD and XPS analyses, the Cu/Zr–Ti–N/Si contact system has high thermal stability at least up to 700°C. The incorporation of Ti atoms into Zr–N barrier layer was shown to be beneficial in improving the thermal stability of the Cu/barrier/Si contact system. [Copyright &y& Elsevier]
- Published
- 2009
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