O. Varela Pedreira scite author profile

Atomic layer deposition of ruthenium is studied as a barrierless metallization solution for future sub-10 nm interconnect technology nodes. We demonstrate the void-free filling in sub-10 nm wide single damascene lines using an ALD process in combination with 2.5 Å of ALD TiN interface and postdeposition annealing. At such small dimensions, the ruthenium effective resistance depends less on the scaling than that of Cu/barrier systems. Ruthenium effective resistance potentially crosses the Cu curve at 14 and 10 nm according to the semiempirical interconnect resistance model for advanced technology nodes. These extremely scaled ruthenium lines show excellent electromigration behavior. Time-dependent dielectric breakdown measurements reveal negligible ruthenium ion drift into low-κ dielectrics up to 200 °C, demonstrating that ruthenium can be used as a barrierless metallization in interconnects. These results indicate that ruthenium is highly promising as a replacement to Cu as the metallization solution for future technology nodes.

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Cu pumping in TSVs: Effect of pre-CMP thermal budget

Wolf

Croes

Pedreira

et al. 2011

Microelectronics Reliability

132

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Interconnect metals beyond copper: reliability challenges and opportunities

Croes

Adelmann

Wilson

et al. 2018

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Impact of post-plating anneal and through-silicon via dimensions on Cu pumping

Messemaeker

Pedreira

Vandevelde

et al. 2013

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Reliability study on cobalt and ruthenium as alternative metals for advanced interconnects

Pedreira

Croes

Leśniewska

et al. 2017

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