Patent application number | Description | Published |
20080272493 | Semiconductor device - A semiconductor device is disclosed. The device includes a substrate, a first porous SiCOH dielectric layer, a second porous SiCOH dielectric layer, and an oxide layer. The first porous SiCOH dielectric layer overlies the substrate. The second porous SiCOH dielectric layer overlies the first porous SiCOH dielectric layer. The oxide layer overlies the second porous SiCOH dielectric layer. The atomic percentage of carbon in the second porous SiCOH dielectric layer is between 16% and 22% of that in the first porous SiCOH dielectric layer. | 11-06-2008 |
20090258487 | Method for Improving the Reliability of Low-k Dielectric Materials - A method for forming an integrated circuit structure includes providing a semiconductor substrate; forming a low-k dielectric layer over the semiconductor substrate; generating hydrogen radicals using a remote plasma method; performing a first hydrogen radical treatment to the low-k dielectric layer using the hydrogen radicals; forming an opening in the low-k dielectric layer; filling the opening with a conductive material; and performing a planarization to remove excess conductive material on the low-k dielectric layer. | 10-15-2009 |
20090286394 | Method for Forming Self-Assembled Mono-Layer Liner for Cu/Porous Low-k Interconnections - A method for fabricating an integrated circuit comprises forming a low-k dielectric layer over a semiconductor substrate, etching the low-k dielectric layer to form an opening, and treating the low-k dielectric layer with a gaseous organic chemical to cause a reaction between the low-k dielectric layer and the gaseous organic chemical. The gaseous organic chemical is free from silicon. | 11-19-2009 |
20110217840 | Method for Forming Self-Assembled Mono-Layer Liner for Cu/Porous Low-k Interconnections - A method for fabricating an integrated circuit comprises forming a low-k dielectric layer over a semiconductor substrate, etching the low-k dielectric layer to form an opening, and treating the low-k dielectric layer with a gaseous organic chemical to cause a reaction between the low-k dielectric layer and the gaseous organic chemical. The gaseous organic chemical is free from silicon. | 09-08-2011 |
20110263127 | Method for Fabricating Low-k Dielectric and Cu Interconnect - A system and method for improving the performance of an integrated circuit by lowering RC delay time is provided. A preferred embodiment comprises adding a reactive etch gas to the ash/flush plasma process following a low-k dielectric etch. The illustrative embodiments implement a removal of the damage layer that is formed during a low-k dielectric etch. | 10-27-2011 |
20120077339 | METHOD OF AND APPARATUS FOR ACTIVE ENERGY ASSIST BAKING - A method of and apparatus for forming interconnects on a substrate includes etching patterns in ultra-low k dielectric and removing moisture from the ultra-low k dielectric using active energy assist baking. During active energy assist baking, the ultra-low k dielectric is heated and exposed to light having only wavelengths greater than 400 nm for about 1 to about 20 minutes at a temperature of about 300 to about 400 degrees Celsius. The active energy assist baking is performed after wet-cleaning or after chemical mechanical polishing, or both. | 03-29-2012 |
20130052755 | Automatically adjusting baking process for low-k dielectric material - A method includes etching a low-k dielectric layer on a wafer to form an opening in the low-k dielectric layer. An amount of a detrimental substance in the wafer is measured to obtain a measurement result. Process conditions for baking the wafer are determined in response to the measurement result. The wafer is baked using the determined process conditions. | 02-28-2013 |
20130062774 | Semiconductor Device and Method for Forming the Same - A method includes forming a metal hard mask over a low-k dielectric layer. The step of forming the metal hard mask includes depositing a sub-layer of the metal hard mask, and performing a plasma treatment on the sub-layer of the metal hard mask. The metal hard mask is patterned to form an opening. The low-k dielectric layer is etched to form a trench, wherein the step of etching is performed using the metal hard mask as an etching mask. | 03-14-2013 |
20130137261 | METHOD OF MODIFYING A LOW K DIELECTRIC LAYER HAVING ETCHED FEATURES AND THE RESULTING PRODUCT - A dielectric layer having features etched thereon and a low dielectric constant, and that is carried by a semiconductor substrate. The etched dielectric layer is modified so its surface energy is reduced by at least one of: (a) applying thermal energy to the layer to cause the layer temperature to be between 100 C and 400 C; (b) irradiating the layer with electromagnetic energy; and/or (c) irradiating the layer with free ions. | 05-30-2013 |
20130256903 | INTERCONNECT STRUCTURE AND METHOD FOR FORMING THE SAME - A interconnect structure includes a conductive layer formed in a dielectric layer. An adhesion layer is formed between the dielectric layer and a substrate. The adhesion layer has a carbon content ratio greater than a carbon content ratio of the dielectric layer. | 10-03-2013 |
20130273732 | METHOD OF AND APPARATUS FOR ACTIVE ENERGY ASSIST BAKING - An Active Energy Assist (AEA) baking chamber includes an AEA light source assembly and a heater pedestal. The AEA baking chamber further includes a controller for controlling a power input to the AEA light source assembly and a power input to the heater pedestal. A method of forming interconnects on a substrate includes etching a substrate and wet cleaning the etched substrate. The method further includes active energy assist (AEA) baking the substrate after the wet-cleaning. The AEA baking includes placing the substrate on a heater pedestal in an AEA chamber, exposing the substrate to light having a wavelength equal to or greater than 400 nm, wherein said light is emitted by a light source and controlling the light source and the heater pedestal using a controller. | 10-17-2013 |
20140141611 | Surface Treatment in the Formation of Interconnect Structure - A Ultra-Violet (UV) treatment is performed on an exposed surface of a low-k dielectric layer and an exposed surface of a metal line. After the UV treatment, an organo-metallic soak process is performed on the exposed surface of the low-k dielectric layer and the exposed surface of the metal line. The organo-metallic soak process is performed using a process gas including a metal bonded to an organic group. | 05-22-2014 |
20150056802 | INTERCONNECT STRUCTURE AND METHOD FOR FORMING THE SAME - Embodiments of an interconnect structure and methods for forming an interconnect structure are provided. The method includes forming a low-k dielectric layer over a substrate, forming an opening in the low-k dielectric layer, forming a conductor in the opening, forming a capping layer over the conductor, and forming an etch stop layer over the capping layer and the low-k dielectric layer. The etch stop layer includes an N element with a content ratio not less than about 25 at %. | 02-26-2015 |