Patent application number | Description | Published |
20080197513 | BEOL INTERCONNECT STRUCTURES WITH IMPROVED RESISTANCE TO STRESS - A chip is provided which includes a back-end-of-line (“BEOL”) interconnect structure. The BEOL interconnect structure includes a plurality of interlevel dielectric (“ILD”) layers which include a dielectric material curable by ultraviolet (“UV”) radiation. A plurality of metal interconnect wiring layers are embedded in the plurality of ILD layers. Dielectric barrier layers cover the plurality of metal interconnect wiring layers, the dielectric barrier layers being adapted to reduce diffusion of materials between the metal interconnect wiring layers and the ILD layers. One of more of the dielectric barrier layers is adapted to retain compressive stress while withstanding UV radiation sufficient to cure the dielectric material of the ILD layers, making the BEOL structure better capable of avoiding deformation due to thermal and/or mechanical stress. | 08-21-2008 |
20080224135 | METHOD AND STRUCTURE FOR DETERMINING THERMAL CYCLE RELIABILITY - A device and method for evaluating reliability of a semiconductor chip structure built by a manufacturing process includes a test structure built in accordance with a manufacturing process. The test structure is thermal cycled and the yield of the test structure is measured. The reliability of the semiconductor chip structure built by the manufacturing process is evaluated based on the yield performance before the thermal cycling. | 09-18-2008 |
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 |
20080254643 | STRUCTURE TO IMPROVE ADHESION BETWEEN TOP CVD LOW-K DIELECTRIC AND DIELECTRIC CAPPING LAYER - An interconnect structure in which the adhesion between an upper level low-k dielectric material, such as a material comprising elements of Si, C, O, and H, and an underlying diffusion capping dielectric, such as a material comprising elements of C, Si, N and H, is improved by incorporating an adhesion transition layer between the two dielectric layers. The presence of the adhesion transition layer between the upper level low-k dielectric and the diffusion barrier capping dielectric can reduce the chance of delamination of the interconnect structure during the packaging process. The adhesion transition layer provided herein includes a lower SiO | 10-16-2008 |
20080277765 | INHIBITING DAMAGE FROM DICING AND CHIP PACKAGING INTERACTION FAILURES IN BACK END OF LINE STRUCTURES - A semiconductor product comprises a semiconductor substrate having a top surface and a bottom surface including a semiconductor chip. The semiconductor substrate has a top surface and a perimeter. A barrier is formed in the chip within the perimeter. An Ultra Deep Isolation Trench (UDIT) is cut in the top surface of the chip extending down therein between the perimeter and the barrier. A ILD structure with low-k pSICOH dielectric and hard mask layers is formed over the substrate prior to forming the barrier and the UDIT. The ILD structure interconnection structures can be recessed down to the substrate aside from the UDIT. | 11-13-2008 |
20090035480 | STRENGTHENING OF A STRUCTURE BY INFILTRATION - The present invention provides a method of strengthening a structure, to heal the imperfection of the structure, to reinforce the structure, and thus strengthening the dielectric without compromising the desirable low dielectric constant of the structure. The inventive method includes the steps of providing a semiconductor structure having at least one interconnect structure; dicing the interconnect structure; applying at least one infiltrant into the interconnect structure; and infiltrating the infiltrant to infiltrate into the interconnect structure. | 02-05-2009 |
20090061237 | LOW k POROUS SiCOH DIELECTRIC AND INTEGRATION WITH POST FILM FORMATION TREATMENT - A porous SiCOH (e.g., p-SiCOH) dielectric film in which the stress change caused by increased tetrahedral strain is minimized by post treatment in unsaturated Hydrocarbon ambient. The inventive p-SiCOH dielectric film has more —(CHx) and less Si—O—H and Si—H bondings as compared to prior art p-SiCOH dielectric films. Moreover, a stable pSiOCH dielectric film is provided in which the amount of Si—OH (silanol) and Si—H groups at least within the pores has been reduced by about 90% or less by the post treatment. Hence, the inventive p-SiCOH dielectric film has hydrophobicity improvement as compared with prior art p-SiCOH dielectric films. In the present invention, a p-SiCOH dielectric film is produced that is flexible since the pores of the inventive film include stabilized crosslinking —(CH | 03-05-2009 |
20090061649 | LOW k POROUS SiCOH DIELECTRIC AND INTEGRATION WITH POST FILM FORMATION TREATMENT - A porous SiCOH (e.g., p-SiCOH) dielectric film in which the stress change caused by increased tetrahedral strain is minimized by post treatment in unsaturated Hydrocarbon ambient. The inventive p-SiCOH dielectric film has more —(CHx) and less Si—O—H and Si—H bondings as compared to prior art p-SiCOH dielectric films. Moreover, a stable pSiOCH dielectric film is provided in which the amount of Si—OH (silanol) and Si—H groups at least within the pores has been reduced by about 90% or less by the post treatment. Hence, the inventive p-SiCOH dielectric film has hydrophobicity improvement as compared with prior art p-SiCOH dielectric films. In the present invention, a p-SiCOH dielectric film is produced that is flexible since the pores of the inventive film include stabilized crosslinking —(CH | 03-05-2009 |
20100295181 | REDUNDANT METAL BARRIER STRUCTURE FOR INTERCONNECT APPLICATIONS - A redundant metal diffusion barrier is provided for an interconnect structure which improves the reliability and extendibility of the interconnect structure. The redundant metal diffusion barrier layer is located within an opening that is located within a dielectric material and it is between a diffusion barrier layer and a conductive material which are also present within the opening. The redundant diffusion barrier includes a single layered or multilayered structure comprising Ru and a Co-containing material including pure Co or a Co alloy including at least one of N, B and P. | 11-25-2010 |
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 |
20110140245 | STRUCTURE FOR INHIBITING BACK END OF LINE DAMAGE FROM DICING AND CHIP PACKAGING INTERACTION FAILURES - A semiconductor product comprises a semiconductor substrate having a top surface and a bottom surface including a semiconductor chip. The semiconductor substrate has a top surface and a perimeter. A barrier is formed in the chip within the perimeter. An Ultra Deep Isolation Trench (UDIT) is cut in the top surface of the chip extending down therein between the perimeter and the barrier. A ILD structure with low-k pSICOH dielectric and hard mask layers is formed over the substrate prior to forming the barrier and the UDIT. The ILD structure interconnection structures can be recessed down to the substrate aside from the UDIT. | 06-16-2011 |
20110260323 | HYBRID INTERCONNECT STRUCTURE FOR PERFORMANCE IMPROVEMENT AND RELIABILITY ENHANCEMENT - The present invention provides an interconnect structure (of the single or dual damascene type) and a method of forming the same, in which a dense (i.e., non-porous) dielectric spacer is present on the sidewalls of a dielectric material. More specifically, the inventive structure includes a dielectric material having a conductive material embedded within at least one opening in the dielectric material, wherein the conductive material is laterally spaced apart from the dielectric material by a diffusion barrier, a dense dielectric spacer and, optionally, an air gap. The presence of the dense dielectric spacer results in a hybrid interconnect structure that has improved reliability and performance as compared with existing prior art interconnect structures which do not include such dense dielectric spacers. Moreover, the inventive hybrid interconnect structure provides for better process control which leads to the potential for high volume manufacturing. | 10-27-2011 |
20120264292 | REDUNDANT METAL BARRIER STRUCTURE FOR INTERCONNECT APPLICATIONS - A redundant metal diffusion barrier is provided for an interconnect structure which improves the reliability and extendibility of the interconnect structure. The redundant metal diffusion barrier layer is located within an opening that is located within a dielectric material and it is between a diffusion barrier layer and a conductive material which are also present within the opening. The redundant diffusion barrier includes a single layered or multilayered structure comprising Ru and a Co-containing material including pure Co or a Co alloy including at least one of N, B and P. | 10-18-2012 |
20120329287 | LOW k POROUS SiCOH DIELECTRIC AND INTEGRATION WITH POST FILM FORMATION TREATMENT - A porous SiCOH dielectric film in which the stress change caused by increased tetrahedral strain is minimized by post treatment in unsaturated Hydrocarbon ambient. The p-SiCOH dielectric film has more —(CHx) and less Si—O—H and Si—H bonding moieties. Moreover, a stable pSiOCH dielectric film is provided in which the amount of Si—OH (silanol) and Si—H groups at least within the pores has been reduced by about 90% or less by the post treatment. A p-SiCOH dielectric film is produced that is flexible since the pores include stabilized crosslinking —(CH | 12-27-2012 |
20130005137 | BARRIER SEQUENCE FOR USE IN COPPER INTERCONNECT METALLIZATION - A method patterns at least one opening in a low-K insulator layer of a multi-level integrated circuit structure, such that a copper conductor is exposed at the bottom of the opening. The method then lines the sidewalls and the bottom of the opening with a first Tantalum Nitride layer in a first chamber and forms a Tantalum layer on the first Tantalum Nitride layer in the first chamber. Next, sputter etching on the opening is performed in the first chamber, so as to expose the conductor at the bottom of the opening. A second Tantalum Nitride layer is formed on the conductor, the Tantalum layer, and the first Tantalum Nitride layer, again in the first chamber. After the second Tantalum Nitride layer is formed, the methods herein form a flash layer comprising a Platinum group metal on the second Tantalum Nitride layer in a second, different chamber. | 01-03-2013 |
20130221529 | HYBRID INTERCONNECT STRUCTURE FOR PERFORMANCE IMPROVEMENT AND RELIABILITY ENHANCEMENT - A hybrid interconnect structure (of the single or dual damascene type) is provided in which a dense (i.e., non-porous) dielectric spacer is present on the sidewalls of a dielectric material. More specifically, the structure includes a dielectric material having a conductive material embedded within at least one opening in the dielectric material, wherein the conductive material is laterally spaced apart from the dielectric material by a diffusion barrier, a dense dielectric spacer and, optionally, an air gap. The presence of the dense dielectric spacer results in a hybrid interconnect structure that has improved reliability and performance. Moreover, the hybrid interconnect structure provides for better process control which leads to the potential for high volume manufacturing. | 08-29-2013 |
20130228925 | HYBRID INTERCONNECT STRUCTURE FOR PERFORMANCE IMPROVEMENT AND RELIABILITY ENHANCEMENT - A hybrid interconnect structure is provided that includes a dielectric material having a conductive material embedded within at least one opening in the dielectric material, wherein the conductive material is laterally spaced apart from the dielectric material by a diffusion barrier, a dense dielectric spacer and, optionally, an air gap. The presence of the dense dielectric spacer results in a hybrid interconnect structure that has improved reliability and performance. Moreover, the hybrid interconnect structure provides for better process control which leads to the potential for high volume manufacturing. | 09-05-2013 |
20130230983 | HYBRID INTERCONNECT STRUCTURE FOR PERFORMANCE IMPROVEMENT AND RELIABILITY ENHANCEMENT - A method of forming a hybrid interconnect structure including dielectric spacers is provided. The method includes forming at least one opening in a dielectric material utilizing a patterned hard mask located on a surface of the dielectric material as a mask, wherein an undercut is present beneath said patterned hard mask. Next, a dense dielectric spacer is formed in the at least one opening and at least partially on exposed sidewalls of the dielectric material. A diffusion barrier and a conductive material are then formed within the at least one opening. | 09-05-2013 |
20130270558 | SEMICONDUCTOR TEST AND MONITORING STRUCTURE TO DETECT BOUNDARIES OF SAFE EFFECTIVE MODULUS - A method of testing an integrated circuit (IC) chip and a related test structure are disclosed. A test structure includes a monitor chain proximate to at least one solder bump pad, the monitor chain including at least one metal via stack, each metal via stack extending from a lower metal layer in the IC chip to an upper metal layer in the IC chip, such that the monitor chain forms a continuous circuit proximate to the at least one solder bump pad, and where each metal via stack is positioned substantially under the solder bump. A method for testing to detect boundaries of safe effective modulus includes performing a stress test on an IC chip containing the test structure joined to a semiconductor package. | 10-17-2013 |
20130345997 | INTEGRATED TIME DEPENDENT DIELECTRIC BREAKDOWN RELIABILITY TESTING - Methods for reliability testing include applying a stress voltage to a device under test (DUT); measuring a leakage current across the DUT; triggering measurement of optical emissions from the DUT based on the timing of the measurement of the leakage current; and correlating measurements of the leakage current with measurements of the optical emissions to determine a time and location of a defect occurrence within the DUT by locating instances of increased noise in the leakage current that correspond in time with instances of increased optical emissions. | 12-26-2013 |
20140021616 | SEMICONDUCTOR STRUCTURE - A semiconductor structure is provided and includes a substrate having an edge surface and a device surface with a central area, a crack stop structure disposed on the device surface and a circuit structure including components disposed on the device surface in the central area and interconnects electrically coupled to the components. The interconnects are configured to extend from the central area to the edge surface while bridging over the crack stop structure. | 01-23-2014 |
20140021622 | OPTIMIZATION METALLIZATION FOR PREVENTION OF DIELECTRIC CRACKING UNDER CONTROLLED COLLAPSE CHIP CONNECTIONS - A method of reducing white bump formation and dielectric cracking under controlled collapse chip connections (C4s). The method comprises fabricating a substrate having a plurality of metallization layers, one or more of the layers is of low k dielectric material. The substrate includes a plurality of attachment pads for the C4s. The fabricating comprises selectively forming at least a portion of the substrate with metal fill having a higher Young's modulus of elasticity than any of the one or more layers of low k dielectric material in portions of the substrate located beneath at least some of the attachment pads. | 01-23-2014 |
20140024146 | SEMICONDUCTOR STRUCTURE - A semiconductor structure is provided and includes a substrate having an edge surface and a device surface with a central area, a crack stop structure disposed on the device surface and a circuit structure including components disposed on the device surface in the central area and interconnects electrically coupled to the components. The interconnects are configured to extend from the central area to the edge surface while bridging over the crack stop structure. | 01-23-2014 |
20140207396 | INTEGRATED TIME DEPENDENT DIELECTRIC BREAKDOWN RELIABILITY TESTING - Systems for reliability testing include a picometer configured to measure a leakage current across a device under test (DUT); a camera configured to measure optical emissions from the DUT based on a timing of the measurement of the leakage current; and a test system configured to apply a stress voltage to the DUT and to correlate the leakage current with the optical emissions using a processor to determine a time and location of a defect occurrence within the DUT by locating instances of increased noise in the leakage current that correspond in time with instances of increased optical emissions. | 07-24-2014 |
20140302685 | DIELETRIC CAP HAVING MATERIAL WITH OPTICAL BAND GAP TO SUBSTANTIALLY BLOCK UV RADIATION DURING CURING TREATMENT, AND RELATED METHODS - A dielectric cap and related methods are disclosed. In one embodiment, the dielectric cap includes a dielectric material having an optical band gap (e.g., greater than about 3.0 electron-Volts) to substantially block ultraviolet radiation during a curing treatment, and including nitrogen with electron donor, double bond electrons. The dielectric cap exhibits a high modulus and is stable under post ULK UV curing treatments for, for example, copper low k back-end-of-line (BEOL) nanoelectronic devices, leading to less film and device cracking and improved reliability. | 10-09-2014 |
20140339703 | STRUCTURE AND METHOD FOR MAKING CRACK STOP FOR 3D INTEGRATED CIRCUITS - A structure to prevent propagation of a crack into the active region of a 3D integrated circuit, such as a crack initiated by a flaw at the periphery of a thinned substrate layer or a bonding layer, and methods of forming the same is disclosed. | 11-20-2014 |
20150044787 | SEMICONDUCTOR TEST AND MONITORING STRUCTURE TO DETECT BOUNDARIES OF SAFE EFFECTIVE MODULUS - A method of testing an integrated circuit (IC) chip and a related test structure are disclosed. A test structure includes a monitor chain proximate to at least one solder bump pad, the monitor chain including at least one metal via stack, each metal via stack extending from a lower metal layer in the IC chip to an upper metal layer in the IC chip, such that the monitor chain forms a continuous circuit proximate to the at least one solder bump pad, and where each metal via stack is positioned substantially under the solder bump. A method for testing to detect boundaries of safe effective modulus includes performing a stress test on an IC chip containing the test structure joined to a semiconductor package. | 02-12-2015 |