摘要:
A metal interconnect structure and method of making the same implants ions of an alloy elements into a copper line through a via. Then ion implantation of the alloy elements in the copper line through the via provides improved electromigration properties at the copper line at a critical electromigration failure site, without attempting to provide alloy elements throughout the entire copper line.
摘要:
Disclosed herein are various methods of forming copper-based conductive structures on integrated circuit devices. In one example, the method includes forming a trench/via in a layer of insulating material, performing a deposition process to form an as-deposited copper-based seed layer above the layer of insulating material in the trench/via, wherein the copper-based seed layer has a first portion that is positioned above a bottom of the trench/via that is thicker than second portions of the copper seed layer that are positioned above sidewalls of the trench/via, performing an etching process on the as-deposited copper-based seed layer to substantially remove portions of the second portions of the as-deposited copper-based seed layer and performing an electroless deposition process to fill the trench/via with a copper-based material.
摘要:
Disclosed herein are various methods of forming copper-based conductive structures on integrated circuit devices. In one example, the method includes the steps of forming a trench/via in a layer of insulating material, forming a copper-based seed layer above the layer of insulating material and in the trench/via, performing a heating process on the copper-based seed layer to increase an amount of the copper-based seed layer positioned proximate a bottom of the trench/via, performing an etching process on said copper-based seed layer and performing an electroless copper deposition process to fill the trench/via with a copper-based material.
摘要:
Disclosed herein are various methods of forming copper-based conductive structures on integrated circuit devices. In one example, the method includes the steps of forming a trench/via in a layer of insulating material, forming a copper-based seed layer above the layer of insulating material and in the trench/via, performing a heating process on the copper-based seed layer to increase an amount of the copper-based seed layer positioned proximate a bottom of the trench/via, performing an etching process on said copper-based seed layer and performing an electroless copper deposition process to fill the trench/via with a copper-based material.
摘要:
The electromigration resistance of nitride capped Cu lines is significantly improved by controlling the nitride deposition conditions to reduce the compressive stress of the deposited nitride layer, thereby reducing diffusion along the Cu-nitride interface. Embodiments include depositing a silicon nitride capping layer on inlaid Cu using dual frequency powers, holding the high frequency power constant and controlling the compressive stress of the deposited silicon nitride capping layer by varying the low frequency power to the susceptor, thereby enabling reduction of the compressive stress below about 2×107 Pascals. Embodiments also include sequentially and contiguously treating the exposed planarized surface of in-laid Cu with a soft plasma containing NH3 diluted with N2, and then depositing the silicon nitride capping layer by plasma enhanced chemical vapor deposition, while varying the low frequency power between about 100 to about 300 watts. Embodiments also include Cu dual damascene structures formed in dielectric material having a dielectric constant (k) less than about 3.9.
摘要:
The electromigration resistance of nitride capped Cu lines is significantly improved by controlling the nitride deposition conditions to reduce the compressive stress of the deposited nitride layer, thereby reducing diffusion along the Cu-nitride interface. Embodiments include depositing a silicon nitride capping layer on inlaid Cu at a reduced RF power, e.g., about 400 to about 500 watts and an increased spacing, e.g., about 680 to about 720 mils, to reduce the compressive stress of the deposited silicon nitride layer to below about 2×107 Pascals. Embodiments also include sequentially and contiguously treating the exposed planarized surface of in-laid Cu with a soft plasma containing NH3 diluted with N2, ramping up the introduction of SiH4 and then initiating plasma enhanced chemical vapor deposition of a silicon nitride capping layer, while maintaining substantially the same pressure and N2 flow rate during plasma treatment, SiH4 ramp up and silicon nitride deposition. Embodiments also include Cu dual damascene structures formed in dielectric material having a dielectric constant (k) less than about 3.9.
摘要:
The present invention is directed to a method of forming semiconductor devices. In one illustrative embodiment, the method comprises forming a layer of dielectric material, forming a hard mask layer above the layer of dielectric material, and forming an opening in the hard mask layer. The method further comprises forming a sidewall spacer in the opening in the hard mask layer that defines a reduced opening, forming an opening in the layer of dielectric material below the reduced opening, and forming a conductive interconnection in the opening in the dielectric layer.
摘要:
The present invention is directed to a method of forming semiconductor devices. In one illustrative embodiment, the method comprises defining a photoresist feature having a first size in a layer of photoresist that is formed above a layer of dielectric material. The method further comprises reducing the first size of the photoresist feature to produce a reduced size photoresist feature, forming an opening in the layer of dielectric material under the reduced size photoresist feature, and forming a conductive material in the opening in the layer of dielectric material.
摘要:
A metal interconnect structure and method for making the same provides an alloying elements layer that lines a via in a dielectric layer. The alloying element layer is therefore inserted at a critical electromigration failure site, i.e., at the fast diffusion site below the via in the underlying metal. Once the copper fill is performed in the via, an annealing step allows the alloying element to go into solid solution with the copper in and around the via. The solid solution of the alloying element and copper at the bottom of the via in the copper line improves the electromigration reliability of the structure.
摘要:
The present invention is directed to a method of forming semiconductor devices. In one illustrative embodiment, the method comprises defining a photoresist feature having a first size in a layer of photoresist that is formed above a layer of dielectric material. The method further comprises reducing the first size of the photoresist feature to produce a reduced size photoresist feature, forming an opening in the layer of dielectric material under the reduced size photoresist feature, and forming a conductive material in the opening in the layer of dielectric material.