标题: Amorphouslike chemical vapor deposited tungsten diffusion barrier for copper metallization and effects of nitrogen addition
作者: Chang, KM
Yeh, TH
Deng, IC
Shih, CW
电子工程学系及电子研究所
Department of Electronics Engineering and Institute of Electronics
公开日期: 1-八月-1997
摘要: In this article, we propose an amorphouslike chemical vapor deposited tungsten (CVD-W) thin him as a diffusion barrier for copper metallization. Experimental results gave no evidence of interdiffusion and structural change for Cu/amorphouslike CVD-W/Si samples annealed up to 675 degrees C for 30 min in N-2. At higher temperatures (700 degrees C), Cu penetration results in the formation of eta ''-Cu3Si precipitates at the CVD-W/Si interface. This is due to the crystallization of the amorphouslike CVD-W film above 650 degrees C, rendering the grain-boundary structure and, hence, fast pathways for Cu diffusion. The Cu/amorphouslike CVD-W/p(+)n diodes, thus, sustain large increases in reverse leakage current. In addition, the effects of nitrogen addition by using an in situ nitridation on the amorphouslike CVD-W film are also discussed. The effectiveness of the nitrided barrier is attributed to the blocking of the grain boundaries in the tungsten film by nitrogen atoms. This slows down Cu diffusion significantly. Physical and chemical analyses indicate that interfaces in the Cu/WNx/W/Si multilayer maintain their integrity while the annealing is carried out at 750 degrees C. Moreover, the reverse leakage current densities of Cu/WNx/W/p(+)n diodes remain at 10(-7) A/cm(2) after 725 degrees C annealing. (C) 1997 American Institute of Physics.
URI: http://hdl.handle.net/11536/371
ISSN: 0021-8979
期刊: JOURNAL OF APPLIED PHYSICS
Volume: 82
Issue: 3
起始页: 1469
结束页: 1475
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