Copper alloys for interconnections having improved...

Semiconductor device manufacturing: process – Coating with electrically or thermally conductive material – To form ohmic contact to semiconductive material

Reexamination Certificate

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Reexamination Certificate

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06800554

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates generally to the field of integrated circuit manufacturing, and more specifically, to copper alloy interconnections and their formation.
2. Background
Advances in semiconductor manufacturing technology have led to the development of integrated circuits having multiple levels of interconnect. In such an integrated circuit, patterned conductive material on one interconnect level is electrically insulated from patterned conductive material on another interconnect level by films of material such as, for example, silicon dioxide. These conductive materials are typically a metal or metal alloy. Connections between the conductive material at the various interconnect levels are made by forming openings in the insulating layers and providing an electrically conductive structure such that the patterned conductive material from different interconnect levels are brought into electrical contact with each other. These electrically conductive structures are often referred to as contacts or vias.
Other advances in semiconductor manufacturing technology have led to the integration of millions of transistors, each capable of switching at high speed. A consequence of incorporating so many fast switching transistors into an integrated circuit is an increase in power consumption during operation. One technique for increasing speed while reducing power consumption is to replace the traditional aluminum and aluminum alloy interconnects found on integrated circuits with a metal such as copper, which offers lower electrical resistance. Those skilled in the electrical arts will appreciate that by reducing resistance, electrical signals may propagate more quickly through the interconnect pathways on an integrated circuit. Furthermore, because the resistance of copper is significantly less than that of aluminum, the cross-sectional area of a copper interconnect line, as compared to an aluminum interconnect line, may be made smaller without incurring increased signal propagation delays based on the resistance of the interconnect. Additionally, because the capacitance between two electrical nodes is a function of the overlap area between those nodes, using a smaller copper interconnect line results in a decrease in parasitic capacitance. In this way, replacing aluminum-based interconnects with copper-based interconnects provides, depending on the dimensions chosen, reduced resistance, reduced capacitance, or both.
As noted above, copper has electrical advantages, such as lower resistance per cross-sectional area, the ability to provide for reduced parasitic capacitance, and greater immunity to electromigration. For all these reasons, manufacturers of integrated circuits find it desirable to include copper in their products.
While copper is electrically advantageous as compared to aluminum for interconnect lines in integrated circuits, pure copper interconnect lines may still suffer from electromigration related defects.
Accordingly, there is a need for providing copper-based interconnections on integrated circuits that have improved levels of electromigration resistance.


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“Corrosion and Electromigration-Resistant High-Conductivity VLSI Interconnects” IBM Technical Disclosure Bulletin, IBM Corp., New York, vol. 26, No. 4, Apr. 1, 1993, pp. 335-336, XP000364537.
“CU(SN) Alloys for Chip and Package Interconnects”, IBM Technical Disclosure Bulletin, IBM Corp., New York, vol. 37, No. 10, Oct. 1, 1994, pp. 61, XP000475580.
International Search Report (PCT/US 01/43915).

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