A method of forming an oxide free copper interconnect, comprising the following steps. A substrate is provided and a patterned dielectric layer is formed over the substrate. The patterned dielectric layer having an opening exposing a portion of the substrate. The opening having exposed sidewalls. A copper seed layer is formed over the sidewalls of the opening. The copper seed layer is subjected to an electrochemical technique to eliminate any copper oxide formed over the copper seed layer. A bulk copper layer is electrochemically plated over the copper-oxide-free copper seed layer, filling the opening and forming the oxide-free copper interconnect.

A composition for electrodeposition of a metal on a work piece, which electrodeposition is conducted at an electrodeposition temperature, is provided. The composition comprises a metal salt, a polymer suppressor having a cloud point, an accelerator and an electrolyte. If the cloud point is greater than the electrodeposition temperature, an anion is also present in an amount sufficient to lower the cloud point of the polymer suppressor to a temperature approximately no greater than the electrodeposition temperature.

Disclosed are electrolytes for copper electroplating that provide enhanced fill of small features with less overplate. Also disclosed are methods of plating substrates, such as electronic devices, using such electrolytes.

Disclosed are methods for repairing seed layers prior to subsequent metallization during the manufacture of electronic devices. Also disclosed are electronic devices containing substantially continuous seed layers.

The present invention is directed to a process for producing structures containing metallized features for use in microelectric workpieces. The process treats a barrier layer to promote the adhesion between the barrier layer and the metallized feature. Suitable means for promoting adhesion between barrier layers and the metallized features according to the invention include an acid treatment of the barrier layer, an electrolytic treatment of the barrier layer, or deposition of a bonding layer between the barrier layer and metallized feature. The present invention thus modifies an exterior surface of a barrier layer making it more suitable for electrodeposition of metal on a barrier, thus eliminating the need for a PVD or CVD seed layer deposition process.