| 摘要 |
A copper metallization structure in which a layer of a copper alloy, such as Cu-Mg or Cu-Al is deposited over a silicon oxide based dielectric layer and a substantially pure copper layer is deposited over the copper alloy layer. The copper alloy layer serves as a seed or wetting layer for subsequent filling of via holes and trenches with substantially pure copper. Preferred examples of the alloying elements and their atomic alloying percentage include magnesium between 0.05 and 6% and aluminum between 0.05 and 0.3%. Further examples include boron, tantalum, tellurium, and titanium. Preferably, the copper alloy is deposited cold in a sputter process, but, during the deposition of the pure copper layer or afterwards in a separate annealing step, the temperature is raised sufficiently high to cause the alloying element of the copper alloy to migrate to the dielectric layer and form a barrier there against diffusion of copper into and through the dielectric layer. This barrier also promotes adhesion of the alloy layer to the dielectric layer, thereby forming a superior wetting and seed layer for subsequent copper full-fill techniques. Filling of the alloy-lined feature can be accomplished using PVD, CVD, or electro/electroless plating.
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