摘要:
A method for manufacturing an integrated circuit having improved electromigration characteristics includes forming an aperture in an interlevel dielectric layer and providing a barrier layer in the aperture. The aperture is filled with a metal material and a barrier layer is provided above the metal material. An intermetallic region can be formed at an interface of the metal material and the barrier layer. The intermetallic material can be formed by implantation of species.
摘要:
An exemplary embodiment is related to a method of using an adhesion precursor in an integrated circuit fabrication process. The method includes providing a gas of material over a dielectric material and providing a copper layer over an adhesion precursor layer. The adhesion precursor layer is formed by the gas, and the dielectric material includes an aperture.
摘要:
A method of forming a metal or metal nitride layer interface between a copper layer and a silicon nitride layer can include providing a metal organic gas or metal/metal nitride precursor over a copper layer, forming a metal or metal nitride layer from reactions between the metal organic gas or metal/metal nitride precursor and the copper layer, and depositing a silicon nitride layer over the metal or metal nitride layer and copper layer. The metal or metal nitride layer can provide a better interface adhesion between the silicon nitride layer and the copper layer. The metal layer can improve the interface between the copper layer and the silicon nitride layer, improving electromigration reliability and, thus, integrated circuit device performance.
摘要:
A non-planar target can be configured for use in a plasma vapor deposition (PVD) process in which ions bombard the non-planar target and cause alloy atoms present in the non-planar target to be knocked loose and form an alloy film layer. The target includes a top planar section having a first alloy concentration and a side annular section having a second alloy concentration. The side annular section has ends coupled to ends of the top planar section. The first alloy concentration and the second alloy concentration are different.
摘要:
A method of fabricating an integrated circuit can include forming a barrier material layer along lateral side walls and a bottom of a via aperture which is configured to receive a via material that electrically connects a first conductive layer and a second conductive layer, implanting a first alloy element into an interfacial layer over the barrier material layer, depositing an alloy layer over the interfacial layer. The implanted first alloy element is reactive with the barrier material layer to increase resistance to copper diffusion.
摘要:
A method of fabricating an integrated circuit can include performing a reactive ion etch (RIE) to form a via aperture in a dielectric layer where the via aperture exposes a portion of a conductive layer located under the dielectric layer, removing polymer residue from the RIE, and forming a nucleation layer over the exposed portion of the conductive layer using an alloy. The nucleation layer can be formed in an electroless process and can improve electromigration reliability, reduce via resistance, eliminate via corrosion, and eliminate copper resputtering on dielectric sidewalls.
摘要:
A method of fabricating an integrated circuit can include forming a laminated conductive line. The laminated conductive line can be formed in a dielectric trench. The laminated conductive line can include alternating barrier layers and copper layers. An integrated circuit includes at least one interconnect layer, the interconnect layer including a number of conductive lines. Each of the conductive lines includes a first thin barrier layer, a first thin copper layer, a second thin barrier layer and a second thin copper layer. The layered or laminated structure can reduce unconstrained void formation.
摘要:
A method of fabricating an integrated circuit includes forming a barrier layer along lateral side walls and a bottom of a via aperture and providing a ternary copper alloy via material in the via aperture to form a via. The via aperture is configured to receive the ternary copper alloy via material and electrically connect a first conductive layer and a second conductive layer. The ternary copper alloy via material helps the via to have a lower resistance and an increased grain size with staffed grain boundaries.
摘要:
A method of forming a conductive structure such as a copper conductive structure, line, or via is optimized for large grain growth and distribution of alloy elements. The alloy elements can reduce electromigration problems associated with the conductive structure. The conductive structure is self-annealed or first annealed in a low temperature process over a longer period of time. Another anneal is utilized to distribute alloy elements.
摘要:
A method of implanting copper barrier material to improve electrical performance in an integrated circuit fabrication process can include providing a copper layer over an integrated circuit substrate, providing a barrier material at a bottom and sides of a via positioned over the copper layer to form a barrier material layer separating the via from the copper layer, implanting a metal species into the barrier material layer, and providing a conductive layer over the via such that the via electrically connects the conductive layer to the copper layer. The implanted metal species can make the barrier material layer more resistant to copper diffusion from the copper layer.