Fifteen-Nanometer Ru Diffusion Barrier on NiSi/Si for a sub-45 nm Cu Contact Plug

Lin, J. H.; Lee, Jiing-Herng; Hsu, Ching-Tien; Fang, Jau–Shiung

doi:10.1007/s11664-009-0899-8

Journal of Elec Materi

2009

DOI: 10.1007/s11664-009-0899-8

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Fifteen-Nanometer Ru Diffusion Barrier on NiSi/Si for a sub-45 nm Cu Contact Plug

J. H. Lin

Jiing-Herng Lee

Ching-Tien Hsu

et al.

Abstract: A ruthenium film on a NiSi/Si substrate was evaluated for barrier performance in Cu contact metallization. The films were deposited by magnetron sputtering using Ni, Ru, and Cu targets. The low-resistivity NiSi film was initially produced from an Ni/Si substrate, and Ru and Cu films were sequentially deposited on the NiSi/Si substrate so that barrier performance could be studied. Barrier properties were elucidated by four-point probe measurement, x-ray diffractometry, scanning electron microscopy, Auger electr… Show more

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“…[1][2][3][4] The performance of Ta/TaN, TaN/Ta, Ru and Ru/TaN as barrier stack has also been demonstrated in the copper contact technology. [5][6][7][8][9] The requirements for diffusion barrier in the Cu contact structure are very critical since the barrier will be directly deposited onto the NiSi over the heavily doped junction area. The whole system should have not only excellent diffusion barrier properties but also good NiSi thermal stability, and the adhesion between barrier and NiSi should also be addressed.…”

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Improved Diffusion Barrier Properties and NiSi Thermal Stability for the Cu Contact with the Ru/TaSiN Stack on NiSi/Si

Zhang

Zhao

et al. 2012

ECS Solid State Letters

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The thermal stability and electrical properties of Cu contact on NiSi/Si with diffusion barrier of Ru/TaN and Ru/TaSiN stacks were compared. The Cu/Ru/TaSiN system has better barrier performance and NiSi thermal stability than the Cu/Ru/TaN system does on the NiSi/Si substrate. It is found that Cu diffusing into NiSi/Si would cause formation of not only Cu 3 Si but also NiSi 2 . The thermal expansion of Cu is less on the Ru/TaSiN/NiSi system than on the other systems. The results show that good interface adhesion and thermal expansion between NiSi and the barrier are very important in the Cu on NiSi contact technology.As the device dimensions of integrated circuits continue to scale down, the RC delay of multilevel interconnects is becoming a bottleneck. The contact resistance of the tungsten plug increases significantly due to poor gap fill at extreme fine structures, resulting in poor performance of the device. Copper contact metallization has been reported by IMEC and IBM to show competitive performance over conventional chemical vapor deposited (CVD) tungsten process without reliability degradation. 1-4 The performance of Ta/TaN, TaN/Ta, Ru and Ru/TaN as barrier stack has also been demonstrated in the copper contact technology. [5][6][7][8][9] The requirements for diffusion barrier in the Cu contact structure are very critical since the barrier will be directly deposited onto the NiSi over the heavily doped junction area. The whole system should have not only excellent diffusion barrier properties but also good NiSi thermal stability, and the adhesion between barrier and NiSi should also be addressed. Recently, we report better thermal stability of the Cu contact on the NiSi by using TaN/Ta as barrier stack instead of conventional Ta/TaN, demonstrating that the interface property plays an important role in thermal stability of the Cu/barrier/NiSi/Si system. 8 In this work, we propose Ru/TaSiN as barrier stack in copper contact structure. By using TaSiN layer instead of TaN layer, the barrier properties and the thermal stability of NiSi were all improved.The Si (100) wafers with resistivity of 4-8 · cm were cleaned by standard RCA cleaning method followed by dipping into a diluted HF solution to have the native oxide removed. 10 Then the samples were loaded into a BALZERS magnetron sputtering system with a base pressure lower than 2 × 10 −5 Pa. A 20 nm thick Ni film was sputtered on the Si wafers. The samples then were rapid thermal annealed(RTA) at 450 • C for 1 min in N 2 atomsphere. The X-ray diffraction (XRD) patterns (not shown) confirmed the complete formation of NiSi. Before loading into the vacuum chamber, the samples were cleaned in the H 2 SO 4 + H 2 O 2 solution to remove the unreacted Ni followed by dipping into a diluted HF solution to remove possible oxide. The Cu, Ru, and TaN or TaSiN films were deposited on the NiSi films or on the Si substrate. The TaN film was deposited by reactive magnetron sputtering in the Ar/N 2 plasma. The TaSiN film was deposited by co-sputtering both Ta and Si targets....

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confidence: 99%

Improved Diffusion Barrier Properties and NiSi Thermal Stability for the Cu Contact with the Ru/TaSiN Stack on NiSi/Si

Zhang

Zhao

et al. 2012

ECS Solid State Letters

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Electroless Plating of Ru Using Hydrazine Hydrate as a Reducing Agent

Saida

Shimizu

Ito

et al. 2023

J. Electron. Mater.

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Simultaneous Formation of NiSi Contact and Cu Plug/Ti Barrier

배규식¹

2010

Korean. J. Mater. Res.

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Fifteen-Nanometer Ru Diffusion Barrier on NiSi/Si for a sub-45 nm Cu Contact Plug

Cited by 3 publications

References 17 publications

Improved Diffusion Barrier Properties and NiSi Thermal Stability for the Cu Contact with the Ru/TaSiN Stack on NiSi/Si

Improved Diffusion Barrier Properties and NiSi Thermal Stability for the Cu Contact with the Ru/TaSiN Stack on NiSi/Si

Electroless Plating of Ru Using Hydrazine Hydrate as a Reducing Agent

Simultaneous Formation of NiSi Contact and Cu Plug/Ti Barrier

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