| Patent application number | Description | Published |
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| 20090041989 | CORRUGATED INTERFACES FOR MULTILAYERED INTERCONNECTS - Dielectric composite structures comprising interfaces possessing nanometer scale corrugated interfaces in interconnect stack provide enhances adhesion strength and interfacial fracture toughness. Composite structures further comprising corrugated adhesion promoter layers to further increase intrinsic interfacial adhesion are also described. Methods to form the nanometer scale corrugated interfaces for enabling these structures using self assembling polymer systems and pattern transfer process are also described. | 02-12-2009 |
| 20090184374 | ANISOTROPIC STRESS GENERATION BY STRESS-GENERATING LINERS HAVING A SUBLITHOGRAPHIC WIDTH - A protruding structure having a linear edge is formed on a substrate. The protruding structure may be a gate line of a field effect transistor. A stress-generating liner is deposited on the substrate. A non-photosensitive self-assembling block copolymer layer containing at least two immiscible polymeric block components is deposited on the stress-generating liner, and is annealed to allow phase separation of immiscible components. The polymeric resist is developed to remove at least one of the at least two polymeric block components, which formed a pattern of nested lines due to the linear edge of the protruding structure. Linear nanoscale stripes are formed in the polymeric resist which is self-aligning and self-assembled. The stress-generating layer is patterned into linear stress-generating stripes having a sublithographic width. The linear stress-generating stripes provide a predominantly uniaxial stress along their lengthwise direction, providing an anisotropic stress to an underlying semiconductor device. | 07-23-2009 |
| 20090200636 | SUB-LITHOGRAPHIC DIMENSIONED AIR GAP FORMATION AND RELATED STRUCTURE - Sub-lithographic dimensioned air gap formation and related structure are disclosed. In one embodiment, a method includes forming a dielectric layer including interconnects on a substrate; depositing a cap layer on the dielectric layer; depositing a photoresist over the cap layer; patterning the photoresist to include a first trench pattern at most partially overlying the interconnects; forming a spacer within the first trench pattern to form a second trench pattern having a sub-lithographic dimension; transferring the second trench pattern into the cap layer and into the dielectric layer between the interconnects; and depositing another dielectric layer to form an air gap by pinching off the trench in the dielectric layer. | 08-13-2009 |
| 20100151638 | ANISOTROPIC STRESS GENERATION BY STRESS-GENERATING LINERS HAVING A SUBLITHOGRAPHIC WIDTH - A protruding structure having a linear edge is formed on a substrate. The protruding structure may be a gate line of a field effect transistor. A stress-generating liner is deposited on the substrate. A non-photosensitive self-assembling block copolymer layer containing at least two immiscible polymeric block components is deposited on the stress-generating liner, and is annealed to allow phase separation of immiscible components. The polymeric resist is developed to remove at least one of the at least two polymeric block components, which formed a pattern of nested lines due to the linear edge of the protruding structure. Linear nanoscale stripes are formed in the polymeric resist which is self-aligning and self-assembled. The stress-generating layer is patterned into linear stress-generating stripes having a sublithographic width. The linear stress-generating stripes provide a predominantly uniaxial stress along their lengthwise direction, providing an anisotropic stress to an underlying semiconductor device. | 06-17-2010 |
| 20100181677 | STRUCTURE WITH SELF ALIGNED RESIST LAYER ON AN INSULATING SURFACE AND METHOD OF MAKING SAME - A structure is provided with a self-aligned resist layer on an insulator surface and non-lithographic method of fabricating the same. The non-lithographic method includes applying a resist on a structure comprising at least one of interconnects formed in an insulator material. The method further comprises exposing the resist to energy and developing the resist to expose surfaces of the interconnects. The method further comprises depositing metal cap material on the exposed surfaces of the interconnects. | 07-22-2010 |
| 20100181678 | STRUCTURE WITH SELF ALIGNED RESIST LAYER ON AN INTERCONNECT SURFACE AND METHOD OF MAKING SAME - A structure is provided with a self-aligned resist layer on a surface of metal interconnects for use in forming air gaps in an insulator material and method of fabricating the same. The non-lithographic method includes applying a resist on a structure comprising at least one metal interconnect formed in an insulator material. The method further includes blanket-exposing the resist to energy and developing the resist to expose surfaces of the insulator material while protecting the metal interconnects. The method further includes forming air gaps in the insulator material by an etching process, while the metal interconnects remain protected by the resist. | 07-22-2010 |
| Patent application number | Description | Published |
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| 20080200034 | METHOD TO REMOVE BEOL SACRIFICIAL MATERIALS AND CHEMICAL RESIDUES BY IRRADIATION - A method to fabricate interconnect structures that are part of integrated circuits and microelectronic devices by utilization of an irradiation to remove and clean a sacrificial material used therein is described. The advantages of utilizing the irradiation to remove the sacrificial material include reduced damage to interlayer dielectric layers that result in enhanced device performance and/or increased reliability. | 08-21-2008 |
| 20080254612 | POLYCARBOSILANE BURIED ETCH STOPS IN INTERCONNECT STRUCTURES - Interconnect structures having buried etch stop layers with low dielectric constants and methods relating to the generation of such buried etch stop layers are described herein. The inventive interconnect structure comprises a buried etch stop layer comprised of a polymeric material having a composition Si | 10-16-2008 |
| 20080254614 | MULTILAYERED CAP BARRIER IN MICROELECTRONIC INTERCONNECT STRUCTURES - Structures having low-k multilayered dielectric diffusion barrier layer having at least one low-k sublayer and at least one air barrier sublayer are described herein. The multilayered dielectric diffusion barrier layer are diffusion barriers to metal and barriers to air permeation. Methods and compositions relating to the generation of the structures are also described. The advantages of utilizing these low-k multilayered dielectric diffusion barrier layer is a gain in chip performance through a reduction in capacitance between conducting metal features and an increase in reliability as the multilayered dielectric diffusion barrier layer are impermeable to air and prevent metal diffusion. | 10-16-2008 |
| 20080254630 | DEVICE AND METHODOLOGY FOR REDUCING EFFECTIVE DIELECTRIC CONSTANT IN SEMICONDUCTOR DEVICES - Method of manufacturing a semiconductor device structure, including 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 at least one interconnect. | 10-16-2008 |
| 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 |
