Patent application number | Description | Published |
20080251148 | Fluid Handling System for Wafer Electroless Plating and Associated Methods - A chemical fluid handling system is defined to supply a number of chemicals to a number of fluid inputs of a mixing manifold. The chemical fluid handling system includes a number of fluid recirculation loops for separately pre-conditioning and controlling the supply of each of the number of chemicals. Each of the fluid recirculation loops is defined to degas, heat, and filter a particular one of the number of chemical components. The mixing manifold is defined to mix the number of chemicals to form the electroless plating solution. The mixing manifold includes a fluid output connected to a supply line. The supply line is connected to supply the electroless plating solution to a fluid bowl within an electroless plating chamber. | 10-16-2008 |
20080254225 | Method and Apparatus for Wafer Electroless Plating - A semiconductor wafer electroless plating apparatus includes a platen and a fluid bowl. The platen has a top surface defined to support a wafer, and an outer surface extending downward from a periphery of the top surface to a lower surface of the platen. The fluid bowl has an inner volume defined by an interior surface so as to receive the platen, and wafer to be supported thereon, within the inner volume. A seal is disposed around the interior surface of the fluid bowl so as to form a liquid tight barrier when engaged between the interior surface of the fluid bowl and the outer surface of the platen. A number of fluid dispense nozzles are positioned to dispense electroplating solution within the fluid bowl above the seal so as to rise up and flow over the platen, thereby flowing over the wafer when present on the platen. | 10-16-2008 |
20080254621 | Wafer Electroless Plating System and Associated Methods - A dry-in/dry-out system is disclosed for wafer electroless plating. The system includes an upper zone for wafer ingress/egress and drying operations. Proximity heads are provided in the upper zone to perform the drying operations. The system also includes a lower zone for electroless plating operations. The lower zone includes an electroless plating apparatus that implements a wafer submersion by fluid upwelling method. The upper and lower zones of the system are enclosed by a dual-walled chamber, wherein the inner wall is a chemically inert plastic and the outer wall is a structural metal. The system interfaces with a fluid handling system which provides the necessary chemistry supply and control for the system. The system is ambient controlled. Also, the system interfaces with an ambient controlled managed transfer module (MTM). | 10-16-2008 |
20080280456 | Thermal methods for cleaning post-CMP wafers - Methods for cleaning semiconductor wafers following chemical mechanical polishing are provided. An exemplary method exposes a wafer to a thermal treatment in an oxidizing environment followed by a thermal treatment in a reducing environment. The thermal treatment in the oxidizing environment both removes residues and oxidizes exposed copper surfaces to form a cupric oxide layer. The thermal treatment in the reducing environment then reduces the cupric oxide to elemental copper. This leaves the exposed copper clean and in condition for further processing, such as electroless plating. | 11-13-2008 |
20090162537 | POST-DEPOSITION CLEANING METHODS AND FORMULATIONS FOR SUBSTRATES WITH CAP LAYERS - One embodiment of the present invention is a method of fabricating an integrated circuit. The method includes providing a substrate having a metal and dielectric damascene metallization layer and depositing substantially on the metal a cap. After deposition of the cap, the substrate is cleaned with a solution comprising an amine to provide a pH for the cleaning solution of 7 to about 13. Another embodiment of the presented invention is a method of cleaning substrates. Still another embodiment of the present invention is a formulation for a cleaning solution. | 06-25-2009 |
20090304914 | Self assembled monolayer for improving adhesion between copper and barrier layer - The embodiments fill the need enabling deposition of a thin and conformal barrier layer, and a copper layer in the copper interconnect with good electro-migration performance and with reduced risk of stress-induce voiding of copper interconnect. Electromigration and stress-induced voiding are affected by the adhesion between the barrier layer and the copper layer. A functionalization layer is deposited over the barrier layer to enable the copper layer being deposit in the copper interconnect. The functionalization layer forms strong bonds with barrier layer and with copper to improve adhesion property between the two layers. An exemplary method of preparing a substrate surface of a substrate to deposit a functionalization layer over a metallic barrier layer of a copper interconnect to assist deposition of a copper layer in the copper interconnect in order to improve electromigration performance of the copper interconnect is provided. The method includes depositing the metallic barrier layer to line the copper interconnect structure in the integrated system, and oxidizing a surface of the metallic barrier layer. The method also includes depositing the functionalization layer over the oxidized surface of the metallic barrier layer, and depositing the copper layer in the copper interconnect structure after the funcationalization layer is deposited over the metallic barrier layer. | 12-10-2009 |
20100009535 | METHODS AND SYSTEMS FOR BARRIER LAYER SURFACE PASSIVATION - This invention pertains to methods and systems for fabricating semiconductor devices. One aspect of the present invention is a method of depositing a gapfill copper layer onto a barrier layer for semiconductor device metallization. In one embodiment, the method includes forming the barrier layer on a surface of a substrate and subjecting the barrier layer to a process condition so as to form a removable passivated surface on the barrier layer. The method further includes removing the passivated surface from the barrier layer and depositing the gapfill copper layer onto the barrier layer. Another aspect of the present invention is an integrated system for depositing a copper layer onto a barrier layer for semiconductor device metallization. In one embodiment, the integrated system comprises at least one process module configured for barrier layer deposition and passivated surface formation and at least one other process module configured for passivated surface removal and deposition of copper onto the barrier layer. The system further includes at least one transfer module coupled so that the substrate can be transferred between the modules substantially without exposure to an oxide-forming environment. | 01-14-2010 |
20100108491 | METHODS FOR REMOVING A METAL OXIDE FROM A SUBSTRATE - A method for generating plasma for removing metal oxide from a substrate is provided. The method includes providing a powered electrode assembly, which includes a powered electrode, a dielectric layer, and a wire mesh disposed between the powered electrode and the dielectric layer. The method also includes providing a grounded electrode assembly disposed opposite the powered electrode assembly to form a cavity wherein the plasma is generated. The wire mesh is shielded from the plasma by the dielectric layer when the plasma is present in the cavity, which has an outlet at one end for providing the plasma to remove the metal oxide. The method further includes introducing at least one inert gas and at least one process gas into the cavity. The method yet also includes applying an rf field to the cavity using the powered electrode to generate the plasma from the inert and the process gas. | 05-06-2010 |
20100239767 | Apparatus for Applying a Plating Solution for Electroless Deposition - An electroless plating chamber is provided. The electroless plating chamber includes a chuck configured to support a substrate and a bowl surrounding a base and a sidewall of the chuck. The base has an annular channel defined along an inner diameter of the base. The chamber includes a drain connected to the annular channel. The drain is capable of removing fluid collected from the chuck. A proximity head capable of cleaning and substantially drying the substrate is included in the chamber. A method for performing an electroless plating operation is also provided. | 09-23-2010 |
20110011335 | Electroless Plating Method and Apparatus - An electroless plating system is provided. The system includes a first vacuum chuck supporting a first wafer and a second vacuum chuck supporting a second wafer such that a top surface of the second wafer is opposing a top surface of the first wafer. The system also includes a fluid delivery system configured to deliver a plating solution to the top surface of the first wafer, wherein in response to delivery of the plating solution, the top surface of the second wafer is brought proximate to the top surface of the first wafer so that the plating solution contacts both top surfaces. A method for applying an electroless plating solution to a substrate is also provided. | 01-20-2011 |
20110081779 | Method and Apparatus for Material Deposition - Broadly speaking, a method and an apparatus are provided for depositing a material on a semiconductor wafer (“wafer”). More specifically, the method and apparatus provide for selective heating of a surface of the wafer exposed to an electroless plating solution. The selective heating is provided by applying radiant energy to the wafer surface. The selective heating of the wafer surface causes a temperature increase at an interface between the wafer surface and the electroless plating solution. The temperature increase at the interface in turn causes a plating reaction to occur at the wafer surface. Thus, material is deposited on the wafer surface through an electroless plating reaction that is initiated and controlled by varying the temperature of the wafer surface using an appropriately defined radiant energy source. | 04-07-2011 |
20110306203 | INTERCONNECT STRUCTURE AND METHOD OF MANUFACTURING A DAMASCENE STRUCTURE - An interconnect structure is provided, including a layer of dielectric material having at least one opening and a first barrier layer on sidewalls defining the opening. A ruthenium-containing second barrier layer overlays the first barrier layer, the second barrier layer having a ruthenium zone, a ruthenium oxide zone, and a ruthenium-rich zone. The ruthenium zone is interposed between the first barrier layer and the ruthenium oxide zone. The ruthenium oxide zone is interposed between the ruthenium zone and the ruthenium-rich zone. | 12-15-2011 |
20120045897 | Wafer Electroless Plating System and Associated Methods - A dry-in/dry-out system is disclosed for wafer electroless plating. The system includes an upper zone for wafer ingress/egress and drying operations. Proximity heads are provided in the upper zone to perform the drying operations. The system also includes a lower zone for electroless plating operations. The lower zone includes an electroless plating apparatus that implements a wafer submersion by fluid upwelling method. The upper and lower zones of the system are enclosed by a dual-walled chamber, wherein the inner wall is a chemically inert plastic and the outer wall is a structural metal. The system interfaces with a fluid handling system which provides the necessary chemistry supply and control for the system. The system is ambient controlled. Also, the system interfaces with an ambient controlled managed transfer module (MTM). | 02-23-2012 |
20120269987 | Processes and Systems for Engineering a Barrier Surface for Copper Deposition - An integrated system for processing a substrate in controlled environment to enable deposition of a thin copper seed layer on a surface of a metallic barrier layer of a copper interconnect is provided. The system includes a lab-ambient transfer chamber, a vacuum transfer chamber, a vacuum process module for cleaning an exposed surface of a metal oxide of a underlying metal, a vacuum process module for depositing the metallic barrier layer, and a controlled-ambient transfer chamber filled with an inert gas, wherein at least one controlled-ambient process module is coupled to the controlled-ambient transfer chamber. In addition, the system includes an electroless copper deposition process module used to deposit the thin layer of copper seed layer on the surface of the metallic barrier layer. | 10-25-2012 |
20130280917 | Method and Apparatus for Wafer Electroless Plating - A semiconductor wafer electroless plating apparatus includes a platen and a fluid bowl. The platen has a top surface defined to support a wafer, and an outer surface extending downward from a periphery of the top surface to a lower surface of the platen. The fluid bowl has an inner volume defined by an interior surface so as to receive the platen, and wafer to be supported thereon, within the inner volume. A seal is disposed around the interior surface of the fluid bowl so as to form a liquid tight barrier when engaged between the interior surface of the fluid bowl and the outer surface of the platen. A number of fluid dispense nozzles are positioned to dispense electroplating solution within the fluid bowl above the seal so as to rise up and flow over the platen, thereby flowing over the wafer when present on the platen. | 10-24-2013 |
20130323410 | POST-DEPOSITION CLEANING METHODS AND FORMULATIONS FOR SUBSTRATES WITH CAP LAYERS - One embodiment of the present invention is a method of fabricating an integrated circuit. The method includes providing a substrate having a metal and dielectric damascene metallization layer and depositing substantially on the metal a cap. After deposition of the cap, the substrate is cleaned with a solution comprising an amine to provide a pH for the cleaning solution of 7 to about 13. Another embodiment of the presented invention is a method of cleaning substrates. Still another embodiment of the present invention is a formulation for a cleaning solution. | 12-05-2013 |
20140322446 | PROCESSES AND SYSTEMS FOR ENGINEERING A COPPER SURFACE FOR SELECTIVE METAL DEPOSITION - An integrated system for transferring and processing a substrate in a controlled environment to enable selective deposition of a thin layer of a cobalt-alloy material on a copper surface of a copper interconnect to improve electromigration performance of the copper interconnect, comprising: a lab-ambient transfer chamber; a substrate cleaning reactor coupled to the lab-ambient transfer chamber, wherein the substrate cleaning reactor cleans the substrate surface to remove metal-organic complex contaminants on the substrate surface; a vacuum transfer chamber; a vacuum process module for removing organic contaminants from the substrate surface; a controlled-ambient transfer chamber filled with an inert gas; and an electroless cobalt-alloy material deposition process module used to deposit the thin layer of cobalt-alloy material on the copper surface of the copper interconnect after the substrate surface has been removed of metallic contaminants and organic contaminants, and the copper surface has been removed of copper oxide. | 10-30-2014 |
20150034589 | SYSTEM AND METHOD FOR FORMING PATTERNED COPPER LINES THROUGH ELECTROLESS COPPER PLATING - A method for forming copper on a substrate including inputting a copper source solution into a mixer, inputting a reducing solution into the mixer, mixing copper source solution and the reducing solution to form a plating solution having a pH of greater than about 6.5 and applying the plating solution to a substrate, the substrate including a catalytic layer wherein applying the plating solution to the substrate includes forming a catalytic layer, maintaining the catalytic layer in a controlled environment and forming copper on the catalytic layer. A system for forming copper structures is also disclosed. | 02-05-2015 |