Patents by Inventor Naftali E. Lustig
Naftali E. Lustig has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11205588Abstract: Interconnect structures having enhanced reliability is provided in which an electrically conductive structure having a line portion and a via portion is formed utilizing a subtractive process. In some embodiments, a non-conductive barrier liner is formed on physically exposed sidewalls of the via portion and physically exposed sidewalls and a topmost surface of the line portion of the electrically conductive structure. An electrically conductive metal cap is formed on a topmost surface of the via portion of the electrically conductive structure. In other embodiments, a conductive barrier spacer is formed on physically exposed sidewalls of the via portion and physically exposed sidewalls of the line portion of the electrically conductive structure. An electrically conductive metal cap is formed on a topmost surface of the via portion of the electrically conductive structure.Type: GrantFiled: July 10, 2019Date of Patent: December 21, 2021Assignee: International Business Machines CorporationInventors: Baozhen Li, Chih-Chao Yang, Naftali E. Lustig
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Patent number: 10998263Abstract: An IC device, such as a wafer, chip, die, processor, application specific integrated circuit (ASIC), field programmable gate array (FPGA), or the like include a chamfered VIA that connects an upper wiring line and a first lower wiring line. The chamfered VIA includes a chamfer or fillet upon the edge that connects the VIA sidewall(s) with the VIA contact surface that is connected to the first lower wiring line. The chamfer or fillet effectively increases the amount of a dielectric material, such as a high-k dielectric material, within a trench of the VIA and that is between the chamfered VIA and a second lower wiring line that neighbors the first lower wiring line. This increased dielectric material improves TDDB between the chamfered VIA and the second lower wiring line and mitigates TDDB effects, such as electrical shorts between the chamfered VIA and the second lower wiring line.Type: GrantFiled: June 13, 2019Date of Patent: May 4, 2021Assignee: International Business Machines CorporationInventors: Jim Shih-Chun Liang, Naftali E. Lustig, Baozhen Li, Ning Lu
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Publication number: 20210013097Abstract: Interconnect structures having enhanced reliability is provided in which an electrically conductive structure having a line portion and a via portion is formed utilizing a subtractive process. In some embodiments, a non-conductive barrier liner is formed on physically exposed sidewalls of the via portion and physically exposed sidewalls and a topmost surface of the line portion of the electrically conductive structure. An electrically conductive metal cap is formed on a topmost surface of the via portion of the electrically conductive structure. In other embodiments, a conductive barrier spacer is formed on physically exposed sidewalls of the via portion and physically exposed sidewalls of the line portion of the electrically conductive structure. An electrically conductive metal cap is formed on a topmost surface of the via portion of the electrically conductive structure.Type: ApplicationFiled: July 10, 2019Publication date: January 14, 2021Inventors: Baozhen Li, Chih-Chao Yang, Naftali E. Lustig
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Publication number: 20200395294Abstract: An IC device, such as a wafer, chip, die, processor, application specific integrated circuit (ASIC), field programmable gate array (FPGA), or the like include a chamfered VIA that connects an upper wiring line and a first lower wiring line. The chamfered VIA includes a chamfer or fillet upon the edge that connects the VIA sidewall(s) with the VIA contact surface that is connected to the first lower wiring line. The chamfer or fillet effectively increases the amount of a dielectric material, such as a high-k dielectric material, within a trench of the VIA and that is between the chamfered VIA and a second lower wiring line that neighbors the first lower wiring line. This increased dielectric material improves TDDB between the chamfered VIA and the second lower wiring line and mitigates TDDB effects, such as electrical shorts between the chamfered VIA and the second lower wiring line.Type: ApplicationFiled: June 13, 2019Publication date: December 17, 2020Inventors: Jim Shih-Chun Liang, Naftali E. Lustig, Baozhen Li, Ning Lu
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Patent number: 10256186Abstract: Methods of forming an interconnect structure include depositing a first conductive material on a substrate. Aspects include subtractively etching the conductive material to form a patterned first conductive layer, and depositing a dielectric layer on interconnect structure. Aspects also include depositing a second conductive material on the dielectric layer and removing the second conductive material through the top of the second metal liner.Type: GrantFiled: November 17, 2017Date of Patent: April 9, 2019Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Griselda Bonilla, Samuel S. Choi, Ronald G. Filippi, Elbert E. Huang, Naftali E. Lustig, Andrew H. Simon
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Patent number: 10229875Abstract: A back end of the line (BEOL) fuse structure having a stack of vias. The stacking of vias leads to high aspect ratios making liner and seed coverage inside the vias poorer. The weakness of the liner and seed layers leads to a higher probability of electromigration (EM) failure. The fuse structure addresses failures due to poor liner and seed coverage. Design features permit determining where failures occur, determining the extent of the damaged region after fuse programming and preventing further propagation of the damaged dielectric region.Type: GrantFiled: March 17, 2016Date of Patent: March 12, 2019Assignee: International Business Machines CorporationInventors: Griselda Bonilla, Kaushik Chanda, Ronald G. Filippi, Stephan Grunow, Naftali E. Lustig, Andrew H. Simon, Ping-Chuan Wang
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Patent number: 10224236Abstract: A method of forming an air gap for a semiconductor device and the device formed are disclosed. The method may include forming an air gap mask layer over a dielectric interconnect layer, the dielectric interconnect layer including a dielectric layer having a conductive interconnect therein and a cap layer over the dielectric layer; patterning the air gap mask layer using extreme ultraviolet (EUV) light and etching to form an air gap mask including an opening in the cap layer exposing a portion of the dielectric layer of the dielectric interconnect layer adjacent to the conductive interconnect; removing the air gap mask; etching an air gap space adjacent to the conductive interconnect within the dielectric layer of the dielectric interconnect layer using the opening in the cap layer; and forming an air gap in the dielectric interconnect layer by depositing an air gap capping layer to seal the air gap space.Type: GrantFiled: November 15, 2017Date of Patent: March 5, 2019Assignee: GLOBALFOUNDRIES INC.Inventors: Samuel S. Choi, Ronald G. Filippi, Elbert E. Huang, Naftali E. Lustig, Griselda Bonilla, Andrew H. Simon
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Patent number: 10177031Abstract: A method of forming an integrated metal line and interconnect. The method may include forming a first trench in a first ILD exposing a lower metal line, the first ILD is above a substrate, and the lower metal line is in the substrate; forming a first barrier layer in the first trench; forming an integrated metal layer (including a first metal line and a first via) on the first barrier layer; forming a first hardmask on the integrated metal layer; forming an isolation trench in the first hardmask and in the first metal line; forming a second barrier layer in the isolation trench; removing a portion of the second barrier layer from a bottom of the isolation trench exposing the first ILD; and forming a second ILD on the second barrier and in the isolation trench, where a bottom of the second ILD is in the first ILD.Type: GrantFiled: December 23, 2014Date of Patent: January 8, 2019Assignee: International Business Machines CorporationInventors: Junjing Bao, Griselda Bonilla, Samuel S. Choi, Ronald G. Filippi, Naftali E. Lustig, Andrew H. Simon
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Patent number: 10103068Abstract: A semiconductor device includes a first circuit structure and a second circuit structure. The first circuit structure includes a wiring line and a via upon and electrically contacting the wiring line. The via induces lateral etching voids between the via and the wiring line below the via upon the surface of the wiring line. The second circuit structure includes a similar wiring line, relative to the reference wiring line, without or fewer via thereupon. The first circuit structure is therefore relatively more prone to lateral etching void formation as compared to the second circuit structure. Resistances are measured across the first circuit structure and the second circuit structure and compared against a comparison threshold to determine whether the first circuit structure includes one or more lateral etching voids. If the first structure is deemed to not include lateral etching voids, the fabrication process of the device may be deemed reliable.Type: GrantFiled: June 18, 2015Date of Patent: October 16, 2018Assignee: GLOBALFOUNDRIES INC.Inventors: Griselda Bonilla, Samuel S. S. Choi, Ronald G. Filippi, Elbert E. Huang, Naftali E. Lustig, Andrew H. Simon
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Publication number: 20180076082Abstract: A method of forming an air gap for a semiconductor device and the device formed are disclosed. The method may include forming an air gap mask layer over a dielectric interconnect layer, the dielectric interconnect layer including a dielectric layer having a conductive interconnect therein and a cap layer over the dielectric layer; patterning the air gap mask layer using extreme ultraviolet (EUV) light and etching to form an air gap mask including an opening in the cap layer exposing a portion of the dielectric layer of the dielectric interconnect layer adjacent to the conductive interconnect; removing the air gap mask; etching an air gap space adjacent to the conductive interconnect within the dielectric layer of the dielectric interconnect layer using the opening in the cap layer; and forming an air gap in the dielectric interconnect layer by depositing an air gap capping layer to seal the air gap space.Type: ApplicationFiled: November 15, 2017Publication date: March 15, 2018Inventors: Samuel S. Choi, Ronald G. Filippi, Elbert E. Huang, Naftali E. Lustig, Griselda Bonilla, Andrew H. Simon
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Publication number: 20180076133Abstract: Methods of forming an interconnect structure include depositing a first conductive material on a substrate. Aspects include subtractively etching the conductive material to form a patterned first conductive layer, and depositing a dielectric layer on interconnect structure. Aspects also include depositing a second conductive material on the dielectric layer and removing the second conductive material through the top of the second metal liner.Type: ApplicationFiled: November 17, 2017Publication date: March 15, 2018Inventors: Griselda BONILLA, Samuel S. CHOI, Ronald G. FILIPPI, Elbert E. HUANG, Naftali E. LUSTIG, Andrew H. SIMON
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Patent number: 9893011Abstract: A BEOL e-fuse is disclosed which reliably blows in the via and can be formed even in the tightest pitch BEOL layers. The BEOL e-fuse can be formed utilizing a line first dual damascene process to create a sub-lithographic via to be the programmable link of the e-fuse. The sub-lithographic via can be patterned using standard lithography and the cross section of the via can be tuned to match the target programming current.Type: GrantFiled: October 1, 2015Date of Patent: February 13, 2018Assignee: International Business Machines CorporationInventors: Junjing Bao, Griselda Bonilla, Kaushik Chanda, Samuel S. Choi, Ronald G. Filippi, Stephan Grunow, Naftali E. Lustig, Dan Moy, Andrew H. Simon
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Patent number: 9859208Abstract: A method for an interconnect structure including: forming a hard mask layer on a semiconductor substrate having a wiring line; patterning the hard mask layer to form a patterned hard mask layer having a hard mask layer opening; depositing a dielectric stack on the patterned hard mask layer and in the hard mask layer opening; patterning the dielectric stack to form a via opening aligned with the hard mask layer opening and to expose the wiring line through the via opening and the hard mask layer opening, a bottom of the via opening defined by the hard mask layer having the hard mask layer opening; and filling the via opening and the hard mask layer opening with a metal to form a via in contact with the wiring line.Type: GrantFiled: September 18, 2016Date of Patent: January 2, 2018Assignee: International Business Machines CorporationInventors: Matthew S. Angyal, Naftali E. Lustig, Rasit O. Topaloglu
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Patent number: 9852980Abstract: Methods of forming an interconnect structure include depositing a first conductive material on a substrate. Aspects include subtractively etching the conductive material to form a patterned first conductive layer, and depositing a dielectric layer on interconnect structure. Aspects also include depositing a second conductive material on the dielectric layer and removing the second conductive material through the top of the second metal liner.Type: GrantFiled: January 13, 2017Date of Patent: December 26, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Griselda Bonilla, Samuel S. Choi, Ronald G. Filippi, Elbert E. Huang, Naftali E. Lustig, Andrew H. Simon
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Publication number: 20170365504Abstract: A method of forming an air gap for a semiconductor device and the device formed are disclosed. The method may include forming conductive interconnects in an ILD including a high etch selectivity dielectric layer such as a silicon nitride with hydrogen component (SiNH) layer, and patterning an air gap mask layer preferably using extreme ultraviolet (EUV) light form an air gap mask. The air gap mask may be used to etch an air gap space in the high etch selectivity dielectric layer. Use of EUV with the high etch selectivity dielectric layer provides an air gap having a width of no greater than 15 nm with the opening used to form the air gap space having a width of no greater than 10 nm width. This integration approach offers smaller pinch-off height, e.g., less than approximately 6 nm, which improves process window for subsequent Mx+1 module builds.Type: ApplicationFiled: June 20, 2016Publication date: December 21, 2017Inventors: Samuel S. Choi, Ronald G. Filippi, Elbert E. Huang, Naftali E. Lustig, Griselda Bonilla, Andrew H. Simon
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Publication number: 20170221815Abstract: Methods of forming an interconnect structure include depositing a first conductive material on a substrate. Aspects include subtractively etching the conductive material to form a patterned first conductive layer, and depositing a dielectric layer on interconnect structure. Aspects also include depositing a second conductive material on the dielectric layer and removing the second conductive material through the top of the second metal liner.Type: ApplicationFiled: January 13, 2017Publication date: August 3, 2017Inventors: Griselda Bonilla, Samuel S. Choi, Ronald G. Filippi, Elbert E. Huang, Naftali E. Lustig, Andrew H. Simon
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Patent number: 9685404Abstract: A BEOL e-fuse is disclosed which reliably blows in the via and can be formed even in the tightest pitch BEOL layers. The BEOL e-fuse can be formed utilizing a line first dual damascene process to create a sub-lithographic via to be the programmable link of the e-fuse. The sub-lithographic via can be patterned using standard lithography and the cross section of the via can be tuned to match the target programming current.Type: GrantFiled: January 11, 2012Date of Patent: June 20, 2017Assignee: International Business Machines CorporationInventors: Junjing Bao, Griselda Bonilla, Kaushik Chanda, Samuel S. Choi, Ronald Filippi, Stephan Grunow, Naftali E. Lustig, Dan Moy, Andrew H. Simon
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Patent number: 9601426Abstract: Methods of forming an interconnect structure include depositing a first conductive material on a substrate. Aspects include subtractively etching the conductive material to form a patterned first conductive layer, and depositing a dielectric layer on interconnect structure. Aspects also include depositing a second conductive material on the dielectric layer and removing the second conductive material through the top of the second metal liner.Type: GrantFiled: May 27, 2016Date of Patent: March 21, 2017Assignee: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Griselda Bonilla, Samuel S. Choi, Ronald G. Filippi, Elbert E. Huang, Naftali E. Lustig, Andrew H. Simon
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Patent number: 9536830Abstract: An interconnect structure and method of making the same. A preferred interconnect structure has a first interconnect including a first dual damascene via and narrow line and a second interconnect at the same level as the first including a second dual damascene via and wider line. The first and second interconnects may have different aspect ratio and may have different line heights while being co-planar with each other. The second line of the second interconnect may abut or partially surround the first line of the first interconnect. The first interconnect includes a refractory metal material as the main conductor, whereas the second interconnect includes a lower resistivity material as its main conductor.Type: GrantFiled: May 9, 2013Date of Patent: January 3, 2017Assignee: GLOBALFOUNDRIES INC.Inventors: Junjing Bao, Griselda Bonilla, Samuel S. Choi, Ronald G. Filippi, Naftali E. Lustig, Andrew H. Simon
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Patent number: 9536842Abstract: An method including forming multiple interconnect levels on top of one another, each level comprising a metal interconnect and a crack stop both embedded in a dielectric layer, and a dielectric capping layer directly on top of the dielectric layer and directly on top of the metal interconnect, the crack stop is an air gap which intersects an interface between the dielectric layer and the dielectric capping layer of each interconnect level, and forming a through substrate via through the multiple interconnect levels adjacent to, but not in direct contact with, the crack stop, the crack stop of each interconnect level is directly between the metal interconnect of each interconnect level and the through substrate via to prevent cracks caused during fabrication from propagating away from the through substrate via and damaging the metal interconnect.Type: GrantFiled: December 18, 2014Date of Patent: January 3, 2017Assignee: GlobalFoundries, Inc.Inventors: Junjing Bao, Griselda Bonilla, Samuel S. Choi, Ronald G. Filippi, Xiao H. Liu, Naftali E. Lustig, Andrew H. Simon