| Patent application number | Description | Published |
|---|
| 20080280457 | METHOD OF IMPROVING INITIATION LAYER FOR LOW-K DIELECTRIC FILM BY DIGITAL LIQUID FLOW METER - A method for depositing a low dielectric constant film by flowing a oxidizing gas into a processing chamber, flowing an organosilicon compound from a bulk storage container through a digital liquid flow meter at an organosilicon flow rate to a vaporization injection valve, vaporizing the organosilicon compound and flowing the organosilicon compound and a carrier gas into the processing chamber, maintaining the organosilicon flow rate to deposit an initiation layer, flowing a porogen compound from a bulk storage container through a digital liquid flow meter at a porogen flow rate to a vaporization injection valve, vaporizing the porogen compound and flowing the porogen compound and a carrier gas into the processing chamber, increasing the organosilicon flow rate and the porogen flow rate while depositing a transition layer, and maintaining a second organosilicon flow rate and a second porogen flow rate to deposit a porogen containing organosilicate dielectric layer. | 11-13-2008 |
| 20090017231 | NOVEL SILICON PRECURSORS TO MAKE ULTRA LOW-K FILMS WITH HIGH MECHANICAL PROPERTIES BY PLASMA ENHANCED CHEMICAL VAPOR DEPOSITION - A method for depositing a low dielectric constant film on a substrate is provided. The low dielectric constant film is deposited by a process comprising reacting one or more organosilicon compounds and a porogen and then post-treating the film to create pores in the film. The one or more organosilicon compounds include compounds that have the general structure Si—C | 01-15-2009 |
| 20090017639 | NOVEL SILICON PRECURSORS TO MAKE ULTRA LOW-K FILMS OF K<2.2 WITH HIGH MECHANICAL PROPERTIES BY PLASMA ENHANCED CHEMICAL VAPOR DEPOSITION - A method for depositing a low dielectric constant film on a substrate is provided. The low dielectric constant film is deposited by a process comprising reacting one or more organosilicon compounds and a porogen and then post-treating the film to create pores in the film. The one or more organosilicon compounds include compounds that have the general structure Si—C | 01-15-2009 |
| 20090093112 | METHODS AND APPARATUS OF CREATING AIRGAP IN DIELECTRIC LAYERS FOR THE REDUCTION OF RC DELAY - A method and apparatus for generating air gaps in a dielectric material of an interconnect structure. One embodiment provides a method for forming a semiconductor structure comprising depositing a first dielectric layer on a substrate, forming trenches in the first dielectric layer, filling the trenches with a conductive material, planarizing the conductive material to expose the first dielectric layer, depositing a dielectric barrier film on the conductive material and exposed first dielectric layer, depositing a hard mask layer over the dielectric barrier film, forming a pattern in the dielectric barrier film and the hard mask layer to expose selected regions of the substrate, oxidizing at least a portion of the first dielectric layer in the selected region of the substrate, removing oxidized portion of the first dielectric layer to form reversed trenches around the conductive material, and forming air gaps in the reversed trenches while depositing a second dielectric material in the reversed trenches. | 04-09-2009 |
| 20090317971 | RESTORING LOW DIELECTRIC CONSTANT FILM PROPERTIES - A method for restoring the dielectric constant of a low dielectric constant film is described. A porous dielectric layer having a plurality of pores is formed on a substrate. The plurality of pores is then filled with an additive to provide a plugged porous dielectric layer. Finally, the additive is removed from the plurality of pores. | 12-24-2009 |
| 20090325381 | PREVENTION AND REDUCTION OF SOLVENT AND SOLUTION PENETRATION INTO POROUS DIELECTRICS USING A THIN BARRIER LAYER - A method and apparatus for treating a substrate is provided. A porous dielectric layer is formed on the substrate. In some embodiments, the dielectric may be capped by a dense dielectric layer. The dielectric layers are patterned, and a dense dielectric layer deposited conformally over the substrate. The dense conformal dielectric layer seals the pores of the porous dielectric layer against contact with species that may infiltrate the pores. The portion of the dense conformal pore-sealing dielectric layer covering the field region and bottom portions of the pattern openings is removed by directional selective etch. | 12-31-2009 |
| 20100015816 | METHODS TO PROMOTE ADHESION BETWEEN BARRIER LAYER AND POROUS LOW-K FILM DEPOSITED FROM MULTIPLE LIQUID PRECURSORS - A method for processing a substrate is provided, wherein a first organosilicon precursor, a second organosilicon precursor, a porogen, and an oxygen source are provided to a processing chamber. The first organosilicon precursor comprises compounds having generally low carbon content. The second organosilicon precursor comprises compounds having higher carbon content. The porogen comprises hydrocarbon compounds. RF power is applied to deposit a film on the substrate, and the flow rates of the various reactant streams are adjusted to change the carbon content as portions of the film are deposited. In one embodiment, an initial portion of the deposited film has a low carbon content, and is therefore oxide-like, while successive portions have higher carbon content, becoming oxycarbide-like. Another embodiment features no oxide-like initial portion. Post-treating the film generates pores in portions of the film having higher carbon content. | 01-21-2010 |
| 20100018548 | SUPERIMPOSITION OF RAPID PERIODIC AND EXTENSIVE POST MULTIPLE SUBSTRATE UV-OZONE CLEAN SEQUENCES FOR HIGH THROUGHPUT AND STABLE SUBSTRATE TO SUBSTRATE PERFORMANCE - A method for cleaning a substrate processing chamber, including processing a batch of substrates within a processing chamber defining one or more processing regions. Processing the batch of substrates may be executed in a sub-routine having various sub-steps including processing a substrate from the batch within the processing chamber, removing the substrate from the processing chamber, introducing ozone into the processing chamber, and exposing the chamber to ultraviolet light for less than one minute. The substrate batch processing sub-steps may be repeated until the last substrate in the batch is processed. After processing the last substrate in the batch, the method includes removing the last substrate from the processing chamber, introducing ozone into the processing chamber; and exposing the processing chamber to ultraviolet light for three to fifteen minutes. | 01-28-2010 |
| 20100151671 | NOVEL AIR GAP INTEGRATION SCHEME - Methods are provided for forming a structure that includes an air gap. In one embodiment, a method is provided for forming a damascene structure comprises depositing a porous low dielectric constant layer by a method including reacting an organosilicon compound and a porogen-providing precursor, depositing a porogen-containing material, and removing at least a portion of the porogen-containing material, depositing an organic layer on the porous low dielectric constant layer by reacting the porogen-providing precursor, forming a feature definition in the organic layer and the porous low dielectric constant layer, filing the feature definition with a conductive material therein, depositing a mask layer on the organic layer and the conductive material disposed in the feature definition, forming apertures in the mask layer to expose the organic layer, removing a portion or all of the organic layer through the apertures, and forming an air gap adjacent the conductive material. | 06-17-2010 |
| 20110100394 | SUPERIMPOSITION OF RAPID PERIODIC AND EXTENSIVE POST MULTIPLE SUBSTRATE UV-OZONE CLEAN SEQUENCES FOR HIGH THROUGHPUT AND STABLE SUBSTRATE TO SUBSTRATE PERFORMANCE - A method for cleaning a substrate processing chamber, including processing a batch of substrates within a processing chamber defining one or more processing regions. Processing the batch of substrates may be executed in a sub-routine having various sub-steps including processing a substrate from the batch within the processing chamber, removing the substrate from the processing chamber, introducing ozone into the processing chamber, and exposing the chamber to ultraviolet light for less than one minute. The substrate batch processing sub-steps may be repeated until the last substrate in the batch is processed. After processing the last substrate in the batch, the method includes removing the last substrate from the processing chamber, introducing ozone into the processing chamber; and exposing the processing chamber to ultraviolet light for three to fifteen minutes. | 05-05-2011 |
| 20110104891 | METHODS AND APPARATUS OF CREATING AIRGAP IN DIELECTRIC LAYERS FOR THE REDUCTION OF RC DELAY - A method and apparatus for generating air gaps in a dielectric material of an interconnect structure. One embodiment provides a method for forming a semiconductor structure comprising depositing a first dielectric layer on a substrate, forming trenches in the first dielectric layer, filling the trenches with a conductive material, planarizing the conductive material to expose the first dielectric layer, depositing a dielectric barrier film on the conductive material and exposed first dielectric layer, depositing a hard mask layer over the dielectric barrier film, forming a pattern in the dielectric barrier film and the hard mask layer to expose selected regions of the substrate, oxidizing at least a portion of the first dielectric layer in the selected region of the substrate, removing oxidized portion of the first dielectric layer to form reversed trenches around the conductive material, and forming air gaps in the reversed trenches while depositing a second dielectric material in the reversed trenches. | 05-05-2011 |
