Advanced BEOL interconnect structures with low-k PE CVD cap layer and method thereof

Advanced BEOL interconnect structures with low-k PE CVD cap layer and method thereof

An advanced back-end-of-line (BEOL) metallization structure is disclosed. The structure includes a diffusion barrier or cap layer having a low dielectric constant (low-k), where the cap layer is formed of silicon nitride by a plasma-enhanced chemical vapor deposition (PE CVD) process. The metallizat...

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Hauptverfasser: Barth, Edward, Fitzsimmons, John A, Gates, Stephen M, Ivers, Thomas H, Lane, Sarah L, Lee, Jia, McDonald, Ann, McGahay, Vincent, Restaino, Darryl D
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Sprache:eng
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creator Barth, Edward
Fitzsimmons, John A
Gates, Stephen M
Ivers, Thomas H
Lane, Sarah L
Lee, Jia
McDonald, Ann
McGahay, Vincent
Restaino, Darryl D
description An advanced back-end-of-line (BEOL) metallization structure is disclosed. The structure includes a diffusion barrier or cap layer having a low dielectric constant (low-k), where the cap layer is formed of silicon nitride by a plasma-enhanced chemical vapor deposition (PE CVD) process. The metallization structure also includes an inter-layer dielectric (ILD) formed of a carbon-containing dielectric material having a dielectric constant of less than about 4, and a continuous hardmask layer overlying the ILD which is preferably formed of silicon nitride or silicon carbide. A method for forming the BEOL metallization structure is also disclosed. The method includes a pre-clean or pre-activation step to improve the adhesion of the cap layer to the underlying copper conductors. The pre-clean or pre-activation step comprises exposing the copper surface to a reducing plasma including hydrogen, ammonia, nitrogen and/or noble gases.
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title Advanced BEOL interconnect structures with low-k PE CVD cap layer and method thereof
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