Abstract: A process tool for electrochemically treating a substrate is configured to reduce the oxygen concentration and/or the sulfur dioxide concentration in the vicinity of the substrate so that corrosion of copper may be reduced. In one embodiment, a substantially inert atmosphere is established within the process tool including a plating reactor by providing a continuous inert gas flow and/or by providing a cover that reduces a gas exchange with the ambient atmosphere. The substantially inert gas atmosphere may also be maintained during further process steps involved in electrochemically treating the substrate including required transportation steps between the individual process steps.

Abstract: The flow of electrolyte and/or of ions is controlled by a diffuser element provided in a plating reactor, wherein, in one embodiment, the diffuser element comprises a mechanical adjustment mechanism to adjust the effective size of passages of the diffuser element. In another embodiment, the diffuser element comprises at least two patterns of passages that are movable relatively to each other so as to adjust an overlap and thus an effective size of the corresponding passages. Moreover, the path of ions within the plating reactor may be controlled by an electromagnetically driven diffuser element so that a required thickness profile on the workpiece surface may be obtained.

Abstract: In an electroplating apparatus for semiconductor wafers, the currents to each of a plurality of contact portions contacting the wafer edge are individually adjustable and/or a parameter indicative of the current flow in each contact portion may be determined. Moreover, for precise control of the currents, means are provided for monitoring the currents.

Abstract: In a new method of electroplating metal onto a patterned dielectric layer including small diameter vias and large diameter trenches, a pulse reverse electroplating sequence with a two-component chemistry is modified to substantially fill the vias, while in a subsequent DC deposition the bulk material is deposited to completely fill the large diameter trenches. Thus, good control quality compared to conventional three-component chemistry electroplating is obtained while the superior characteristics of a metal layer deposited by a two-component chemistry are preserved. The method is particularly advantageous in electroplating copper.

Abstract: In a method of in situ controlling the degree of fullness of wide lines in a damascene structure, an optical endpoint detection signal is analyzed so as to determine a time interval of substantially constant signal amplitude. The time interval is then used as a measure of the metal filled in a wide line in a damascene structure. By correlating the length of the time interval to at least one process parameter involved in the formation of the damascene structure, the degree of fullness of lines in the damascene structure may be controlled to maintain within a predefined allowable range.

Abstract: In a method of forming damascene metallization lines on a substrate by electroplating and chemical mechanical polishing, the metal layer thickness profile is shaped in correspondence to the removal rate during the chemical mechanical polishing. Thus, any non-uniformity of the chemical mechanical polishing process may be compensated for by appropriately depositing the metal layer so that erosion and dishing of the finally obtained metal lines are within tightly selected manufacturing tolerances.

Abstract: In a method of forming damascene metallization lines on a substrate by electroplating and chemical mechanical polishing, the metal layer thickness profile is shaped in correspondence to the removal rate during the chemical mechanical polishing. Thus, any non-uniformity of the chemical mechanical polishing process may be compensated for by appropriately depositing the metal layer so that erosion and dishing of the finally obtained metal lines are within tightly selected manufacturing tolerances.

Abstract: A method and apparatus for fabricating electrochemical copper interconnections between the component parts of an integrated circuit on a semiconductor device. A cathodic platter is provided that includes contact pins that contact the surface of a semiconductor wafer at predetermined locations during the electrochemical deposition process. The contact pins are arranged on the cathodic platter so that when placed on the surface of the semiconductor wafer the contact pins surround the perimetrical edges of each respective semiconductor device on the semiconductor wafer. Once the semiconductor wafer is properly positioned on the cathodic platter, a copper conductive layer can be electrochemically and uniformly deposited on the surface of the semiconductor device.

Abstract: A method and apparatus for fabricating electrochemical copper interconnections between the component parts of an integrated circuit on a semiconductor device. A cathodic platter is provided that includes contact pins that contact the surface of a semiconductor wafer at predetermined locations during the electrochemical deposition process. The contact pins are arranged on the cathodic platter so that when placed on the surface of the semiconductor wafer the contact pins surround the perimetrical edges of each respective semiconductor device on the semiconductor wafer. Once the semiconductor wafer is properly positioned on the cathodic platter, a copper conductive layer can be electrochemically and uniformly deposited on the surface of the semiconductor device.

Abstract: The reliability of Cu and Cu alloy interconnects is significantly enhanced by controlling the temperature of the electroplating solution during via opening filling to substantially prevent occlusion of the opening. Embodiments of the present invention include electroplating Cu or a Cu alloy from an electroplating solution at a temperature of about 20.degree. C. or less.