Add to ORKGCu gap-fill is enhanced by replacing the conventional Ta liner with a Co liner in a 22 nm width interconnect structure. The improvement with Co liner seen at the line-end area is attributed to a better resputtered Cu seed profile, which is thicker and exhibits no agglomeration compared to that on Ta liner. The mechanism of Co offering better Cu seed coverage than Ta was further studied and determined to be associated with its better wetting and higher sticking coefficient with Cu during the resputtering process. Similar gap-fill performance was also demonstrated with a reflow Cu seed process. The initial highly conformal Cu seed coverage profile on Co helps ensure a uniform Cu reflow process within the interconnect structure, therefore prov...
The demand for more functionality in a smaller amount of space has driven the microelectronics indus...
The copper interconnect technology is constrained by the significant current distribution due to the...
The copper interconnect technology is constrained by the significant current distribution due to the...
The electrodeposited Cu film morphology on thin physical vapor deposited (PVD) Cu seed for various c...
To enable Cu fill of through-Si vias (TSV) with a high aspect ratio (diameter 3 μm, depth 50 μm), th...
A novel Cu reflow seed process which utilizes physical vapor deposition (PVD) technology components ...
The copper interconnect technology is constrained by the non-uniformity of the current distribution ...
The back end of the line (BEOL) copper (Cu) interconnect line width and spacing is decreasing with e...
We report on the electrochemical process and nucleation mechanism of the “direct-on-barrier ” electr...
As a superior substituent for the chemical-vapor deposition and physical-vapor deposition ~PVD! Cu ...
email Contact author Open PDF With ultra-large-scale integration progress, efficient copper metalliz...
[[abstract]]This work examines the impact of the wetting ability of a plating electrolyte on the Cu ...
[[abstract]]This work examines the impact of the wetting ability of a plating electrolyte on the Cu ...
[[abstract]]This work examines the impact of the wetting ability of a plating electrolyte on the Cu ...
The demand for more functionality in a smaller amount of space has driven the microelectronics indus...
The demand for more functionality in a smaller amount of space has driven the microelectronics indus...
The copper interconnect technology is constrained by the significant current distribution due to the...
The copper interconnect technology is constrained by the significant current distribution due to the...
The electrodeposited Cu film morphology on thin physical vapor deposited (PVD) Cu seed for various c...
To enable Cu fill of through-Si vias (TSV) with a high aspect ratio (diameter 3 μm, depth 50 μm), th...
A novel Cu reflow seed process which utilizes physical vapor deposition (PVD) technology components ...
The copper interconnect technology is constrained by the non-uniformity of the current distribution ...
The back end of the line (BEOL) copper (Cu) interconnect line width and spacing is decreasing with e...
We report on the electrochemical process and nucleation mechanism of the “direct-on-barrier ” electr...
As a superior substituent for the chemical-vapor deposition and physical-vapor deposition ~PVD! Cu ...
email Contact author Open PDF With ultra-large-scale integration progress, efficient copper metalliz...
[[abstract]]This work examines the impact of the wetting ability of a plating electrolyte on the Cu ...
[[abstract]]This work examines the impact of the wetting ability of a plating electrolyte on the Cu ...
[[abstract]]This work examines the impact of the wetting ability of a plating electrolyte on the Cu ...
The demand for more functionality in a smaller amount of space has driven the microelectronics indus...
The demand for more functionality in a smaller amount of space has driven the microelectronics indus...
The copper interconnect technology is constrained by the significant current distribution due to the...
The copper interconnect technology is constrained by the significant current distribution due to the...