具有纳米聚类多孔低k (k<2.3)的鲁棒多级互连

Proceedings of the IEEE 2004 International Interconnect Technology Conference (IEEE Cat. No.04TH8729) Pub Date : 2004-06-07 DOI:10.1109/IITC.2004.1345733

T. Nakamura, A. Nakashima

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引用次数: 11

摘要

针对65 nm及以上的节点器件，我们开发了一种高性能多孔超氧化物歧化酶材料——纳米聚类二氧化硅(NCS)。我们独创的纳米聚类技术可以在不使用任何模板材料的情况下，将孔径控制在2.8nm以下，实现均匀的孔隙分布。NCS薄膜具有非常低的介电常数(k<2.3)和高的机械强度;弹性模量为10 GPa，硬度大于1.0 GPa。我们成功地将NCS应用于沟槽层，SiOC应用于通孔层，制作了200nm间距的混合ulk /Cu互连。该结构具有令人满意的电气特性、可靠性和框架强度，可满足65nm节点器件的严格要求。中间层采用NCS制备10级互连，无分层、无开裂现象。热循环(TC)和压力-温度-湿度应力(PTHS)试验结果也表明了其较高的实用可靠性。NCS/铜多级互连满足BEOL的65nm节点要求。

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Robust multilevel interconnects with a nano-clustering porous low-k (k<2.3)

For 65 nm node devices and beyond, we developed a high performance porous SOD materials, nano-clustering silica (NCS). Our original nano-clustering technique can control pore sizes to less than 2.8nm and achieve a homogenous pore distribution without the use of any template materials. NCS films combine a very low dielectric constant (k<2.3) with high mechanical strength; the elastic modulus is 10 GPa and the hardness is greater than 1.0 GPa. We have successfully fabricated 200nm-pitch hybrid-ULK/Cu interconnects by application of NCS to trench layers and SiOC to via layers. The structures exhibit satisfactory electrical characteristics, reliability and framework strength for the severe requirements of 65nm node devices. 10-level interconnects using NCS for the intermediate layers were fabricated without any delamination or cracking. The results of thermal-cycle (TC) and pressure temperature humidity stress (PTHS) tests also showed the high practical reliabilities. The NCS/copper multilevel interconnects meet the 65nm-node requirements for BEOL.

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Proceedings of the IEEE 2004 International Interconnect Technology Conference (IEEE Cat. No.04TH8729)

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