Patent application number | Description | Published |
20090017563 | PLASMA TREATMENT AND REPAIR PROCESSES FOR REDUCING SIDEWALL DAMAGE IN LOW-K DIELECTRICS - A method of forming an interconnect structure for an integrated circuit, including the steps of providing a substrate and forming a dielectric stack on the substrate including an etch-stop layer, a low-k dielectric layer, and a hardmask layer. The method further includes the steps of patterning a photoresist masking layer on the dielectric stack to define a plurality of feature defining regions and plasma processing the substrate in a plasma-based reactor, The processing step includes etching a plurality of features into the hardmask layer and at least a portion of the low-k dielectric layer and performing a plasma treatment process in situ in the plasma-based reactor, where the plasma treatment process includes flowing at least one hydrocarbon into the reactor and generating a plasma, where a mass flow rate of the hydrocarbon is at least 0.1 sccm. The method also includes forming a metal conductor in the plurality of features. | 01-15-2009 |
20090075480 | Silicon Carbide Doped Oxide Hardmask For Single and Dual Damascene Integration - Interconnects of integrated circuits (ICs) utilize low-k dielectrics, copper metal lines, dual damascene processing and amplified photoresist chemistry to build ICs with features smaller than 100 nm. Photolithographic processing of interconnects with these elements are subject to resist poisoning from nitrogen in etch stop and hard mask dielectric layers. Attempts to solve this problem cause lower IC circuit performance or higher fabrication process cost and complexity. This invention comprises a method of fabricating interconnects in an IC using layers of silicon carbide doped oxide (SiCO) in a via etch stop layer, in a trench etch stop layer, as a via etch hard mask and as a trench etch hard mask. | 03-19-2009 |
20090081864 | SiC Film for Semiconductor Processing - A silicon carbide (SiC) film for use in backend processing of integrated circuit manufacturing, is generated by including hydrogen in the reaction gas mixture. This SiC containing film is suitable for integration into etch stop layers, dielectric cap layers and hard mask layers in interconnects of integrated circuits. | 03-26-2009 |
20110034023 | SILICON CARBIDE FILM FOR INTEGRATED CIRCUIT FABRICATION - A silicon carbide (SiC) film for use in backend processing of integrated circuit manufacturing, is generated by including hydrogen in the reaction gas mixture. This SiC containing film is suitable for integration into etch stop layers, dielectric cap layers and hardmask layers in interconnects of integrated circuits. | 02-10-2011 |
Patent application number | Description | Published |
20090236745 | Adhesion to Copper and Copper Electromigration Resistance - The present invention relates to the improved adhesion between a patterned conductive metal layer, usually a copper layer, and a patterned barrier dielectric layer. The structure with the improved adhesion comprises an adhesion layer between a patterned barrier dielectric layer and a patterned conductive metal layer. The adhesion layer improves adhesion between the metal layer and the barrier layer without increasing the copper bulk electrical resistance. The method of making the structure with the improved adhesion comprises steps of thermal expositing the patterned conductive metal layer to an organometallic precursor to deposit an adhesion layer at least on the top of the patterned conductive metal layer. | 09-24-2009 |
20100041234 | Process For Restoring Dielectric Properties - A method for preparing an interlayer dielectric to minimize damage to the interlayer's dielectric properties, the method comprising the steps of: depositing a layer of a silicon-containing dielectric material onto a substrate, wherein the layer has a first dielectric constant and wherein the layer has at least one surface; providing an etched pattern in the layer by a method that includes at least one etch process and exposure to a wet chemical composition to provide an etched layer, wherein the etched layer has a second dielectric constant, and wherein the wet chemical composition contributes from 0 to 40% of the second dielectric constant; contacting the at least one surface of the layer with a silicon-containing fluid; optionally removing a first portion of the silicon-containing fluid such that a second portion of the silicon-containing fluid remains in contact with the at least one surface of the layer; and exposing the at least one surface of the layer to UV radiation and thermal energy, wherein the layer has a third dielectric constant that is restored to a value that is at least 90% restored relative to the second dielectric constant. | 02-18-2010 |
20100136789 | Dielectric Barrier Deposition Using Oxygen Containing Precursor - A method is provided for depositing a dielectric barrier film including a precursor with silicon, carbon, oxygen, and hydrogen with improved barrier dielectric properties including lower dielectric constant and superior electrical properties. This method will be important for barrier layers used in a damascene or dual damascene integration for interconnect structures or in other dielectric barrier applications. In this example, specific structural properties are noted that improve the barrier performance. | 06-03-2010 |
20100143607 | Precursors for Depositing Group 4 Metal-Containing Films - Described herein are Group 4 metal-containing precursors, compositions comprising Group 4 metal-containing precursors, and deposition processes for fabricating conformal metal containing films on substrates. In one aspect, the Group 4 metal-containing precursors are represented by the following formula I: | 06-10-2010 |
20100291321 | Dielectric Barrier Deposition Using Nitrogen Containing Precursor - A process for forming a silicon carbonitride barrier dielectric film between a dielectric film and a metal interconnect of an integrated circuit substrate, comprising the steps of;
| 11-18-2010 |
20110027617 | Methods of Forming Strontium Titanate Films - Embodiments of the current invention include methods of forming a strontium titanate (SrTiO | 02-03-2011 |
20110027960 | Methods of Forming Strontium Titanate Films - Embodiments of the current invention include methods of forming a strontium titanate (SrTiO | 02-03-2011 |
20110212629 | LIQUID COMPOSITION CONTAINING AMINOETHER FOR DEPOSITION OF METAL-CONTAINING FILMS - A formulation, comprising: a) at least one metal-ligand complex, wherein one or more ligands are selected from the group consisting of β-diketonates, β-ketoiminates, β-ketoesterates, β-diiminates, alkyls, carbonyls, alkyl carbonyls, cyclopentadienyls, pyrrolyls, alkoxides, amidinates, imidazolyls, and mixtures thereof; and the metal is selected from Group 2 to 16 elements of the Periodic Table of the Elements; and, b) at least one aminoether selected from the group consisting of R | 09-01-2011 |
20110308937 | LOW K PRECURSORS PROVIDING SUPERIOR INTEGRATION ATTRIBUTES - A deposition for producing a porous organosilica glass film comprising: introducing into a vacuum chamber gaseous reagents including one precursor of an organosilane or an organosiloxane, and a porogen distinct from the precursor, wherein the porogen is aromatic in nature; applying energy to the gaseous reagents in the chamber to induce reaction of the gaseous reagents to deposit a film, containing the porogen; and removing substantially all of the organic material by UV radiation to provide the porous film with pores and a dielectric constant less than 2.6. | 12-22-2011 |
20140242813 | Low K Precursors Providing Superior Integration Attributes - A deposition for producing a porous organosilica glass film comprising: introducing into a vacuum chamber gaseous reagents including one precursor of an organosilane or an organosiloxane, and a porogen distinct from the precursor, wherein the porogen is aromatic in nature; applying energy to the gaseous reagents in the chamber to induce reaction of the gaseous reagents to deposit a film, containing the porogen; and removing substantially all of the organic material by UV radiation to provide the porous film with pores and a dielectric constant less than 2.6. | 08-28-2014 |