For decades, Ta/TaN has been the industry standard for a diffusion barrier against Cu in interconnect metallisation. The continuous miniaturisation of transistors and interconnects into the nanoscale are pushing conventional materials to their physical limits and creating the need to replace them. Binary metallic systems, such as Ru-W, have attracted considerable attention as possible replacements due to a combination of electrical and diffusion barrier properties and the capability of direct Cu electroplating. The process of Cu electrodeposition on Ru-W is of fundamental importance in order to create thin, continuous, and adherent films for advanced interconnect metallisation. This work investigates the effects of the current density and a...
We have studied electrochemical deposition of copper on ruthenium-tantalum (Ru-Ta) alloy, tantalum (...
The continued miniaturization of interconnects results in performance and reliability issues for int...
The morphology of thin layers of Cu electrodeposited on 300 mm Ru substrates (deposited by plasma en...
Ru attracted considerable attention as a candidate to replace TaN as a diffusion barrier layer for C...
The use of Ta/TaN barrier bilayer systems in electronic applications has been ubiquitous over the la...
This study introduces the direct electrodeposition of Cu on Ru-Al2O3 layers, which is a promising ma...
Bilayer of Ta/TaN is the common diffusion barrier for Cu metallization in microelectronics. However,...
Ru has been considered as a next generation barrier material in Cu metallization for ultra-large sca...
Recent success of the advanced physical vapor deposition development allows highly engineered Ta/TaN...
Superfilling of submicrometer trenches by direct copper electrodeposition onto physical vapor deposi...
In this work, the possibility of Cu electrodeposition on Ru-Ta alloy thin films is explored. Ru and...
Ru thin film grown by metal organic chemical vapor deposition (MOCVD) was applied in this study as ...
As a very promising material of copper diffusion barrier for next generation microelectronics, Ru ha...
The focus of this work was to examine the direct plating of Cu on Ru diffusion barriers for use in i...
Co-sputtered Ru-Ta(N), Ru-W(N) and Ru-Mn composites are investigated in terms of their barrier prope...
We have studied electrochemical deposition of copper on ruthenium-tantalum (Ru-Ta) alloy, tantalum (...
The continued miniaturization of interconnects results in performance and reliability issues for int...
The morphology of thin layers of Cu electrodeposited on 300 mm Ru substrates (deposited by plasma en...
Ru attracted considerable attention as a candidate to replace TaN as a diffusion barrier layer for C...
The use of Ta/TaN barrier bilayer systems in electronic applications has been ubiquitous over the la...
This study introduces the direct electrodeposition of Cu on Ru-Al2O3 layers, which is a promising ma...
Bilayer of Ta/TaN is the common diffusion barrier for Cu metallization in microelectronics. However,...
Ru has been considered as a next generation barrier material in Cu metallization for ultra-large sca...
Recent success of the advanced physical vapor deposition development allows highly engineered Ta/TaN...
Superfilling of submicrometer trenches by direct copper electrodeposition onto physical vapor deposi...
In this work, the possibility of Cu electrodeposition on Ru-Ta alloy thin films is explored. Ru and...
Ru thin film grown by metal organic chemical vapor deposition (MOCVD) was applied in this study as ...
As a very promising material of copper diffusion barrier for next generation microelectronics, Ru ha...
The focus of this work was to examine the direct plating of Cu on Ru diffusion barriers for use in i...
Co-sputtered Ru-Ta(N), Ru-W(N) and Ru-Mn composites are investigated in terms of their barrier prope...
We have studied electrochemical deposition of copper on ruthenium-tantalum (Ru-Ta) alloy, tantalum (...
The continued miniaturization of interconnects results in performance and reliability issues for int...
The morphology of thin layers of Cu electrodeposited on 300 mm Ru substrates (deposited by plasma en...