The back-end-of-line (BEOL) copper interconnect structure has been subjected to downscaling for the last two decades, while the materials used for conforming and assuring its physical integrity during processing have faced significant obstacles as the single-digit nanometer process node is implemented. In particular, the diffusion barrier layer system comprised of Ta/TaN has faced major constraints when it comes to the electrical performance of the smaller Cu lines, and thus alternative formulations have been investigated in recent years, such as Ru-Ta or Co-W alloys. In this work, we assess how PVD (physical vapor deposition) deposited equimolar Co-W films perform when exposed to different vacuum annealing temperatures and how these films ...
We investigated the influence of annealing on the diffusion barrier property in a Mn-based and V-bas...
The use of Ta/TaN barrier bilayer systems in electronic applications has been ubiquitous over the la...
Tungsten nitride (WNx) is a potentially strong candidate for Cu diffusion barrier. The WNx. films we...
Co-sputtered Ru-Ta(N), Ru-W(N) and Ru-Mn composites are investigated in terms of their barrier prope...
Copper represents the most commonly used interconnect material in ultra large-scale integration (ULS...
The film properties of WNxCy films deposited by atomic layer deposition (ALD) using WF6, NH3, and tr...
High-temperature stability of Cu-based interconnects is of technological importance for electronic c...
Bilayer of Ta/TaN is the common diffusion barrier for Cu metallization in microelectronics. However,...
A new materials system of a single layered Co(W) barrier/liner coupled with a Cu(Mn) alloy seed was ...
Over the last several years, interconnections used in the semiconductor industry have advanced as fe...
The utilization of copper as an interconnect material requires application of barrier films in order...
Recent success of the advanced physical vapor deposition development allows highly engineered Ta/TaN...
The drive for miniaturization of electronic devices has obligated the semiconductor industry to look...
This work is motivated by the quest for a material system that can simultaneously act as a Cu diffus...
For decades, Ta/TaN has been the industry standard for a diffusion barrier against Cu in interconnec...
We investigated the influence of annealing on the diffusion barrier property in a Mn-based and V-bas...
The use of Ta/TaN barrier bilayer systems in electronic applications has been ubiquitous over the la...
Tungsten nitride (WNx) is a potentially strong candidate for Cu diffusion barrier. The WNx. films we...
Co-sputtered Ru-Ta(N), Ru-W(N) and Ru-Mn composites are investigated in terms of their barrier prope...
Copper represents the most commonly used interconnect material in ultra large-scale integration (ULS...
The film properties of WNxCy films deposited by atomic layer deposition (ALD) using WF6, NH3, and tr...
High-temperature stability of Cu-based interconnects is of technological importance for electronic c...
Bilayer of Ta/TaN is the common diffusion barrier for Cu metallization in microelectronics. However,...
A new materials system of a single layered Co(W) barrier/liner coupled with a Cu(Mn) alloy seed was ...
Over the last several years, interconnections used in the semiconductor industry have advanced as fe...
The utilization of copper as an interconnect material requires application of barrier films in order...
Recent success of the advanced physical vapor deposition development allows highly engineered Ta/TaN...
The drive for miniaturization of electronic devices has obligated the semiconductor industry to look...
This work is motivated by the quest for a material system that can simultaneously act as a Cu diffus...
For decades, Ta/TaN has been the industry standard for a diffusion barrier against Cu in interconnec...
We investigated the influence of annealing on the diffusion barrier property in a Mn-based and V-bas...
The use of Ta/TaN barrier bilayer systems in electronic applications has been ubiquitous over the la...
Tungsten nitride (WNx) is a potentially strong candidate for Cu diffusion barrier. The WNx. films we...