Patent application number | Description | Published |
20130341768 | SELF REPAIRING PROCESS FOR POROUS DIELECTRIC MATERIALS - The present disclosure relates to a structure and method to create a self-repairing dielectric material for semiconductor device applications. A porous dielectric material is deposited on a substrate, and exposed with treating agent particles such that the treating agent particles diffuse into the dielectric material. A dense non-porous cap is formed above the dielectric material which encapsulates the treating agent particles within the dielectric material. The dielectric material is then subjected to a process which creates damage to the dielectric material. A chemical reaction is initiated between the treating agent particles and the damage, repairing the damage. A gradient concentration resulting from the consumption of treating agent particles by the chemical reaction promotes continuous diffusion the treating agent particles towards the damaged region of the dielectric material, continuously repairing the damage. | 12-26-2013 |
20140021612 | SEMICONDUCTOR DEVICE AND FABRICATING PROCESS FOR THE SAME - A semiconductor device and a fabricating process for the same are provided. The semiconductor device includes a base layer having a part of a reactive material; and a self-assembled protecting layer of a self-assembled molecule reacting with the reactive material formed over the part. | 01-23-2014 |
20140038428 | Self-Assembled Monolayer for Pattern Formation - The present disclosure is directed to a process for the fabrication of a semiconductor device. In some embodiments the semiconductor device comprises a patterned surface. The pattern can be formed from a self-assembled monolayer. The disclosed process provides self-assembled monolayers which can be deposited quickly, thereby increasing production throughput and decreasing cost, as well as providing a pattern having substantially uniform shape. | 02-06-2014 |
20140124932 | INTEGRATED CIRCUIT DEVICE HAVING A COPPER INTERCONNECT - A method of forming an interconnect structure of an integrated circuit including providing a first dielectric layer disposed on a semiconductor substrate. A via (or via hole) is etched in the first dielectric layer. A conductive layer including copper is formed that fills the via hole and has a first portion that is disposed on a top surface of the first dielectric layer. A trench is formed in the first portion of the conductive layer to pattern a copper interconnect line disposed on the first dielectric layer. The trench is filled with a second dielectric material. In an embodiment, a barrier layer is self-formed during the removal of a masking element used in the etching of the trench. | 05-08-2014 |
20140131883 | SEMICONDUCTOR STRUCTURE AND SEMICONDUCTOR FABRICATING PROCESS FOR THE SAME - A semiconductor structure and a fabricating process for the same are provided. The semiconductor fabricating process includes providing a first dielectric layer, a transitional layer formed on the first dielectric layer, and a conductive fill penetrated through the transitional layer and into the first dielectric layer; removing the transitional layer; and forming a second dielectric layer over the conductive fill and the first dielectric layer. | 05-15-2014 |
20140252618 | METHOD FOR FORMING INTERCONNECT STRUCTURE THAT AVOIDS VIA RECESS - A method for forming an interconnect structure includes forming a dielectric material layer on a semiconductor substrate. The dielectric material layer is patterned to form a plurality of vias therein. A first metal layer is formed on the dielectric material layer, wherein the first metal layer fills the plurality of vias. The first metal layer is planarized so that the top thereof is co-planar with the top of the dielectric material layer to form a plurality of first metal features. A stop layer is formed on top of each of the plurality of first metal features, wherein the stop layer stops a subsequent etch from etching into the plurality of the first metal features. | 09-11-2014 |
20140252620 | MATERIAL AND PROCESS FOR COPPER BARRIER LAYER - A method of fabricating a semiconductor device comprises forming a first dielectric material layer on a semiconductor substrate. The first dielectric material layer is patterned to form a plurality of vias therein. A metal layer is formed on the first dielectric material layer, wherein the metal layer fills the plurality of vias. The metal layer is etched such that portions of the metal layer above the first dielectric material layer are patterned to form a plurality of metal features aligned with the plurality of vias respectively. A self-assembled monolayer film is formed on surfaces of the plurality of metal features. | 09-11-2014 |
20140252628 | INTERCONNECT STRUCTURE AND METHODS OF MAKING SAME - A method for forming a semiconductor interconnect structure comprises forming a dielectric layer on a substrate and patterning the dielectric layer to form an opening therein. The opening is filled and the dielectric layer is covered with a metal layer having a first etch rate. The metal layer is thereafter planarized so that the metal layer is co-planar with the top of the dielectric layer. The metal layer is annealed to change the first etch rate into a second etch rate, the second etch rate being lower than the first etch rate. A copper-containing layer is formed over the annealed metal layer and the dielectric layer. The copper-containing layer has an etch rate greater than the second etch rate of the annealed metal layer. The copper-containing layer is etched to form interconnect features, wherein the etching stops at the top of the annealed metal layer and does not etch thereunder. | 09-11-2014 |
20140273454 | Wet Cleaning Method for Cleaning Small Pitch Features - A method for reducing contaminants in a semiconductor device is provided. The method includes cleaning the semiconductor substrate. The cleaning includes rotating the semiconductor substrate and dispersing an aerosol at a predetermined temperature to a surface of the semiconductor substrate or a layer formed on the substrate to be cleaned. The aerosol includes a chemical having a predetermined pressure and a gas having a predetermined flow rate. | 09-18-2014 |
20150056813 | SELF-ASSEMBLED MONOLAYER FOR PATTERN FORMATION - The present disclosure relates to a method of forming a pattern on a semiconductor substrate. One or more layers are formed over the semiconductor substrate. A first self-assembled monolayer (SAM) layer is formed over the one or more layers, wherein the first SAM layer exhibits a first SAM pattern. At least a first of the one or more layers is patterned using the first SAM layer as a first etch mask to form first pillars in the first of the one or more layers and then removing the first SAM layer. A second self-assembled monolayer (SAM) layer is formed along sidewall portions of the first pillars after the first SAM layer has been removed, wherein the second SAM layer exhibits a second SAM pattern that differs from the first SAM pattern and where the second SAM layer differs in material composition from the first SAM layer. | 02-26-2015 |
20150087151 | Masking Process and Structures Formed Thereby - A method, e.g., of forming and using a mask, includes forming an inverse mask over a dielectric layer; forming a mask layer conformally over the inverse mask; removing horizontal portions of the mask layer; and after removing the horizontal portions, simultaneously etching the inverse mask and vertical portions of the mask layer. The etching the inverse mask is at a greater rate than the etching the vertical portions of the mask layer. The etching the inverse mask removes the inverse mask, and the etching the vertical portions of the mask layer forms a mask comprising rounded surfaces distal from the dielectric layer. Recesses are formed in the dielectric layer using the mask. Locations of the inverse mask correspond to fewer than all locations of the recesses. | 03-26-2015 |