| Patent application number | Description | Published |
|---|
| 20080293242 | METAL SPACER IN SINGLE AND DUAL DAMASCENE PROCESSING - A method and structure for a single or dual damascene interconnect structure comprises forming wiring lines in a metallization layer over a substrate, shaping a laminated insulator stack above the metallization layer, patterning a hardmask over the laminated insulator stack, forming troughs in the hardmask, patterning the laminated insulator stack, forming vias in the patterned laminated insulator stack, creating sidewall spacers in the bottom portion of the vias, depositing an anti-reflective coating on the sidewall spacers, etching the troughs, removing the anti-reflective coating, depositing a metal layer in the troughs, vias, and sidewall spacers, and applying conductive material in the troughs and the vias. The laminated insulator stack comprises a dielectric layer further comprising oxide and polyarylene. | 11-27-2008 |
| 20090206449 | STRESS-MODIFIED DEVICE STRUCTURES, METHODS OF FABRICATING SUCH STRESS-MODIFIED DEVICE STRUCTURES, AND DESIGN STRUCTURES FOR AN INTEGRATED CIRCUIT - Stress-modified device structures, methods of fabricating such stress-modified device structures, and design structures for an integrated circuit. An electrical characteristic of semiconductor devices formed on a common substrate, such as the current gains of bipolar junction transistors, may be altered by modifying stresses in structures indirectly on or over, or otherwise indirectly coupled with, the semiconductor devices. The structures, which may be liners for contacts in a contact level of an interconnect, are physically spaced away from, and not in direct physical contact with, the respective semiconductor devices because at least one additional intervening material or structure is situated between the stress-imparting structures and the stress-modified devices. The intervening materials or structures, such as contacts extending through an insulating layer of a local interconnect level between the contact level and the semiconductor devices, provide paths for the transfer of stress from the stress-imparting structures to the stress-modified semiconductor devices. | 08-20-2009 |
| 20090212434 | METHODS OF MANUFACTURING SEMICONDUCTOR DEVICES AND A SEMICONDUCTOR STRUCTURE - Processes for improving adhesion of films to semiconductor wafers and a semiconductor structure are provided. By implementing the processes of the invention, it is possible to significantly suppress defect creation, e.g., decrease particle generation, during wafer fabrication processes. More specifically, the processes described significantly reduce flaking of a TaN film from edges or extreme edges (bevel) of the wafer by effectively increasing the adhesion properties of the TaN film on the wafer. The method increasing a mol percent of nitride with respect to a total tantalum plus nitride to 25% or greater during a barrier layer fabrication process. | 08-27-2009 |
| 20090280643 | OPTIMAL TUNGSTEN THROUGH WAFER VIA AND PROCESS OF FABRICATING SAME - A method of optimally filling a through via within a through wafer via structure with a conductive metal such as, for example, W is provided. The inventive method includes providing a structure including a substrate having at least one aperture at least partially formed through the substrate. The at least one aperture of the structure has an aspect ratio of at least 20:1 or greater. Next, a refractory metal-containing liner such as, for example, Ti/TiN, is formed on bare sidewalls of the substrate within the at least one aperture. A conductive metal seed layer is then formed on the refractory metal-containing liner. In the invention, the conductive metal seed layer formed is enriched with silicon and has a grain size of about 5 nm or less. Next, a conductive metal nucleation layer is formed on the conductive metal seed layer. The conductive metal nucleation layer is also enriched with silicon and has a grain size of about 20 nm or greater. Next, a conductive metal is formed on the conductive metal nucleation layer. After performing the above processing steps, a backside planarization process is performed to convert the at least one aperture into at least one through via that is now optimally filled with a conductive metal. | 11-12-2009 |
| 20100263998 | VERTICAL INTEGRATED CIRCUIT SWITCHES, DESIGN STRUCTURE AND METHODS OF FABRICATING SAME - Vertical integrated MEMS switches, design structures and methods of fabricating such vertical switches is provided herein. The method of manufacturing a MEMS switch, includes forming at least two vertically extending vias in a wafer and filling the at least two vertically extending vias with a metal to form at least two vertically extending wires. The method further includes opening a void in the wafer from a bottom side such that at least one of the vertically extending wires is moveable within the void. | 10-21-2010 |
| 20110111590 | DEVICE AND METHODOLOGY FOR REDUCING EFFECTIVE DIELECTRIC CONSTANT IN SEMICONDUCTOR DEVICES - Method of manufacturing a structure which includes the steps of providing a structure having an insulator layer with at least one interconnect, forming a sub lithographic template mask over the insulator layer, and selectively etching the insulator layer through the sub lithographic template mask to form sub lithographic features spanning to a sidewall of the plurality of interconnects. | 05-12-2011 |
| 20110227225 | COPPER ALLOY VIA BOTTOM LINER - Improved mechanical and adhesive strength and resistance to breakage of copper integrated circuit interconnections is obtained by forming a copper alloy in a copper via/wiring connection in an integrated circuit while minimizing adverse electrical effects of the alloy by confining the alloy to an interfacial region of said via/wiring connection and not elsewhere by a barrier which reduces or substantially eliminates the thickness of alloy in the conduction path. The alloy location and composition are further stabilized by reaction of all available alloying material with copper, copper alloys or other metals and their alloys. | 09-22-2011 |
| 20120018832 | METHODS, STRUCTURES, AND DESIGN STRUCTURES FOR IMPROVED ADHESION OF PROTECTIVE LAYERS OF IMAGER MICROLENS STRUCTURES - Methods, structures, and design structures for improved adhesion of protective layers of imager microlens structures are disclosed. A method of fabricating a semiconductor structure includes forming an interfacial region between a microlens and a protective oxide layer. The interfacial region has a lower concentration of oxygen than the protective oxide layer. | 01-26-2012 |
