无金属障碍(BMF)，铜双大马士革互连与铜外延触点埋在抗扩散，低k有机薄膜

2001 Symposium on VLSI Technology. Digest of Technical Papers (IEEE Cat. No.01 CH37184) Pub Date : 2001-06-12 DOI:10.1109/VLSIT.2001.934923

M. Tada, H. Ohtake, Y. Harada, M. Hiroi, S. Saito, T. Onodera, N. Furutake, J. Kawahara, M. Tagami, K. Kinoshita, T. Fukai, T. Mogami, Y. Hayashi

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引用次数: 4

摘要

在等离子体聚合的二乙烯基硅氧烷双苯并环丁烯(p-BCB: k=2.6)聚合物薄膜中制备了无金属障碍(BMF) Cu双damascene互连(DDI)，该聚合物薄膜具有Cu的抗扩散特性。bmf结构的线间泄漏电流与传统的插入势垒结构一样低，并且在1 MV/cm的应力下估计可以保持10年以上的高绝缘性能。bmf结构还产生了Cu-epi触点，将通孔电阻降低到传统Cu/势垒/Cu触点的50%。有效介电常数为k/sub - eff/=3.1，包括非常薄的SiN蚀刻停止层，与传统的Cu-DDI相比，在具有Ta-TaN势垒的SiO/sub - eff/中实现了20%的CMOS器件操作速度。直接埋入p-BCB薄膜中的BMF cu - ddi是实现高性能、0.1 /spl mu/m以上cmos器件的终极结构之一。

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Barrier-metal-free (BMF), Cu dual-damascene interconnects with Cu-epi-contacts buried in anti-diffusive, low-k organic film

Barrier-metal-free (BMF) Cu dual-damascene interconnects (DDI) are fabricated in the plasma-polymerized, divinyl siloxane bis-benzocyclobutene (p-BCB: k=2.6) polymer film, which is characterised by anti-diffusive characteristics for the Cu. The BMF-structure has inter-line leakage current as low as that of a conventional barrier-inserted structure and is estimated to retain the high insulating properties for over 10 years under 1 MV/cm stress. The BMF-structure also derives Cu-epi-contacts, reducing the via-resistance to 50% of that of the conventional Cu/barrier/Cu contacts. The effective dielectric constant was k/sub eff/=3.1, including very thin SiN etch-stop-layers, accomplishing 20% faster CMOS device operation compared to that of the conventional Cu-DDI in the SiO/sub 2/ with Ta-TaN barriers. The BMF Cu-DDIs buried directly in the p-BCB film is one of the ultimate structures for high performance, 0.1 /spl mu/m-CMOS devices and beyond.

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来源期刊

2001 Symposium on VLSI Technology. Digest of Technical Papers (IEEE Cat. No.01 CH37184)

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