Patents by Inventor Ho Cheol Kim
Ho Cheol Kim 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: 7651735Abstract: Methods and a structure. A first film of a first block copolymer is formed inside a trough integrally disposed on an energetically neutral surface layer of a substrate. Line-forming microdomains are assembled of the first block copolymer, and form first self-assembled structures within the first film normal to the sidewalls and parallel to the surface layer. At least one microdomain is removed from the first film such that oriented structures remain in the trough oriented normal to the sidewalls and parallel to the surface layer. A second film of a second block copolymer is formed inside the trough. Line-forming microdomains are assembled of the second block copolymer, and form second self-assembled structures within the second film oriented normal to the oriented structures and parallel to the sidewalls. A second method and a structure are also provided.Type: GrantFiled: April 3, 2008Date of Patent: January 26, 2010Assignee: International Business Machines CorporationInventors: Joy Cheng, Ho-Cheol Kim, Robert D. Miller
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Patent number: 7569469Abstract: The present invention relates to dielectric nanostructures useful in semiconductor devices and other electronic devices and methods for manufacturing the dielectric nanostructures. The nanostructures generally comprises an array of isolated pillars positioned on a substrate. The methods of the present invention involve using semiconductor technology to manufacture the nanostructures from a mixture of a crosslinkable dielectric material and an amphiphilic block copolymer.Type: GrantFiled: August 3, 2006Date of Patent: August 4, 2009Assignee: International Business Machines CorporationInventors: Ho-Cheol Kim, Robert D. Miller
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Publication number: 20090179001Abstract: Disclosed herein is a method of controlling the orientation of microphase-separated domains in a block copolymer film, comprising forming an orientation control layer comprising an epoxy-containing cycloaliphatic acrylic polymer on a surface of a substrate, irradiating and/or heating the substrate to crosslink the orientation control layer, and forming a block copolymer assembly layer comprising block copolymers which form microphase-separated domains, on a surface of the orientation control layer opposite the substrate. The orientation control layer can be selectively cross-linked to expose regions of the substrate, or the orientation control layer can be patterned without removing the layer, to provide selective patterning on the orientation control layer. In further embodiments, bilayer and trilayer imaging schemes are disclosed.Type: ApplicationFiled: January 12, 2008Publication date: July 16, 2009Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Joy Cheng, Ho-Cheol Kim, Charles T. Rettner, Daniel P. Sanders, Ratnam Sooriyakumaran, Linda Sundberg
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Publication number: 20090182093Abstract: A method of orienting microphase-separated domains is disclosed, comprising applying a composition comprising an orientation control component, and a block copolymer assembly component comprising a block copolymer having at least two microphase-separated domains in which the orientation control component is substantially immiscible with the block copolymer assembly component upon forming a film; and forming a compositionally vertically segregated film on the surface of the substrate from the composition. The orientation control component and block copolymer segregate during film forming to form the compositionally vertically-segregated film on the surface of a substrate, where the orientation control component is enriched adjacent to the surface of the compositionally segregated film adjacent to the surface of the substrate, and the block copolymer assembly is enriched at an air-surface interface.Type: ApplicationFiled: January 11, 2008Publication date: July 16, 2009Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Joy Cheng, Ho-Cheol Kim, Daniel P. Sanders, Linda Sundberg
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Publication number: 20090181171Abstract: A method of orienting microphase-separated domains is disclosed, comprising applying a composition comprising an orientation control component, and a block copolymer assembly component comprising a block copolymer having at least two microphase-separated domains in which the orientation control component is substantially immiscible with the block copolymer assembly component upon forming a film; and forming a compositionally vertically segregated film on the surface of the substrate from the composition. The orientation control component and block copolymer segregate during film forming to form the compositionally vertically-segregated film on the surface of a substrate, where the orientation control component is enriched adjacent to the surface of the compositionally segregated film adjacent to the surface of the substrate, and the block copolymer assembly is enriched at an air-surface interface.Type: ApplicationFiled: April 1, 2008Publication date: July 16, 2009Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Joy Cheng, Ho-Cheol Kim, Daniel P. Sanders, Linda Sundberg
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Publication number: 20090179002Abstract: Disclosed are methods of forming polymer structures comprising: applying a solution of a block copolymer assembly comprising at least one block copolymer to a neutral substrate having a chemical pattern thereon, the chemical pattern comprising alternating pinning and neutral regions that are chemically distinct and have a first spatial frequency given by the number of paired sets of pinning and neutral regions along a given direction on the substrate; and forming domains of the block copolymer that form by lateral segregation of the blocks in accordance with the underlying chemical pattern, wherein at least one domain of the block copolymer assembly has an affinity for the pinning regions, wherein a structure extending across the chemical pattern is produced, the structure having a uniform second spatial frequency given by the number of repeating sets of domains along the given direction that is at least twice that of the first spatial frequency.Type: ApplicationFiled: April 3, 2008Publication date: July 16, 2009Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Joy Cheng, William D. Hinsberg, Ho-Cheol Kim, Charles T. Rettner, Daniel P. Sanders
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Patent number: 7560141Abstract: A method of controlling both alignment and registration (lateral position) of lamellae formed from self-assembly of block copolymers, the method comprising the steps of obtaining a substrate having an energetically neutral surface layer comprising a first topographic “phase pinning” pattern and a second topographic “guiding” pattern; obtaining a self-assembling di-block copolymer; coating the self-assembling di-block copolymer on the energetically neutral surface to obtain a coated substrate; and annealing the coated substrate to obtain micro-domains of the di-block copolymer.Type: GrantFiled: November 11, 2008Date of Patent: July 14, 2009Assignee: International Business Machines CorporationInventors: Ho-Cheol Kim, Charles T. Rettner, Sang-Min Park
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Publication number: 20090170342Abstract: The present invention relates to dielectric nanostructures useful in semiconductor devices and other electronic devices and methods for manufacturing the dielectric nanostructures. The nanostructures generally comprises an array of isolated pillars positioned on a substrate. The methods of the present invention involve using semiconductor technology to manufacture the nanostructures from a mixture of a crosslinkable dielectric material and an amphiphilic block copolymer.Type: ApplicationFiled: August 3, 2006Publication date: July 2, 2009Inventors: Ho-Cheol Kim, Robert D. Miller
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Publication number: 20090107953Abstract: A method for producing surface features and an etch masking method. A combination is provided of a block copolymer and additional material. The block copolymer includes a first block of a first polymer covalently bonded to a second block of a second polymer. The additional material is miscible with the first polymer. A film is formed of the combination directly onto a surface of a first layer. Nanostructures of the additional material self-assemble within the first polymer block. The film of the combination and the first layer are etched. The nanostructures have an etch rate lower than an etch rate of the block copolymer and lower than an etch rate of the first layer. The film is removed and features remain on the surface of the first layer. Also included is an etch masking method where the nanostructures mask portions of the first layer from said etchant.Type: ApplicationFiled: March 28, 2008Publication date: April 30, 2009Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Joy Cheng, Mark W. Hart, Hiroshi Ito, Ho-Cheol Kim, Robert Miller
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Publication number: 20090107950Abstract: A method for producing surface features and an etch masking method. A combination is provided of a block copolymer and additional material. The block copolymer includes a first block of a first polymer covalently bonded to a second block of a second polymer. The additional material is miscible with the first polymer. A film is formed of the combination directly onto a surface of a first layer. Nanostructures of the additional material self-assemble within the first polymer block. The film of the combination and the first layer are etched. The nanostructures have an etch rate lower than an etch rate of the block copolymer and lower than an etch rate of the first layer. The film is removed and features remain on the surface of the first layer. Also included is an etch masking method where the nanostructures mask portions of the first layer from said etchant.Type: ApplicationFiled: October 29, 2007Publication date: April 30, 2009Inventors: Joy Cheng, Mark W. Hart, Hiroshi Ito, Ho-Cheol Kim, Robert Miller
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Patent number: 7521090Abstract: Disclosed herein is a method of controlling the orientation of microphase-separated domains in a block copolymer film, comprising forming an orientation control layer comprising an epoxy-containing cycloaliphatic acrylic polymer on a surface of a substrate, irradiating and/or heating the substrate to crosslink the orientation control layer, and forming a block copolymer assembly layer comprising block copolymers which form microphase-separated domains, on a surface of the orientation control layer opposite the substrate. The orientation control layer can be selectively cross-linked to expose regions of the substrate, or the orientation control layer can be patterned without removing the layer, to provide selective patterning on the orientation control layer. In further embodiments, bilayer and trilayer imaging schemes are disclosed.Type: GrantFiled: April 1, 2008Date of Patent: April 21, 2009Assignee: International Business Machines CorporationInventors: Joy Cheng, Ho-Cheol Kim, Charles T. Rettner, Daniel P. Sanders, Ratnam Sooriyakumaran, Linda Sundberg
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Patent number: 7521094Abstract: Disclosed herein is a method of forming polymer structures comprising applying a solution of a diblock copolymer assembly comprising at least one diblock copolymer that forms lamellae, to a neutral surface of a substrate having a chemical pattern thereon, the chemical pattern comprising alternating pinning and neutral regions that are chemically distinct and which have a chemical pattern spatial frequency given by the number of paired sets of pinning and neutral regions along a given direction on the substrate; and forming domains comprising blocks of the diblock copolymer. The domains form by lateral segregation of the blocks. At least one domain has an affinity for the pinning regions and forms on the pinning region, the domains so formed on the pinning region are aligned with the underlying chemical pattern, and domains that do not form on the pinning region form adjacent to and are aligned with the domains formed on the pinning regions.Type: GrantFiled: January 14, 2008Date of Patent: April 21, 2009Assignee: International Business Machines CorporationInventors: Joy Cheng, William D. Hinsberg, Ho-Cheol Kim, Charles T. Rettner, Daniel P. Sanders
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Patent number: 7482389Abstract: A nanoporous material exhibiting a lamellar structure is disclosed. The material comprises three or more substantially parallel sheets of an organosilicate material, separated by highly porous spacer regions. The distance between the centers of the sheets lies between 1 nm and 50 nm. The highly porous spacer regions may be substantially free of condensed material. For the manufacture of such materials, a process is disclosed in which matrix non-amphiphilic polymeric material and templating polymeric material are dispersed in a solvent, where the templating polymeric material includes a polymeric amphiphilic material. The solvent with the polymeric materials is distributed onto a substrate. Organization is induced in the templating polymeric material. The solvent is removed, leaving the polymeric materials in place. The matrix polymeric material is cured, forming a lamellar structure.Type: GrantFiled: April 20, 2005Date of Patent: January 27, 2009Assignee: International Business Machines CorporationInventors: Jennifer Nam Cha, Geraud Jean-Michel Dubois, James Lupton Hedrick, Ho-Cheol Kim, Victor Yee-Way Lee, Teddie Peregrino Magbitang, Robert Dennis Miller, Willi Volksen
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Publication number: 20080311228Abstract: The present invention relates to a pharmaceutical composition for protecting neurons or for preventing and treating ischemic neuronal diseases comprising the extract of Lithospermum erythrorhizon Sieb. Et Zucc extracted with water, low-alcohols or their mixture or acetylshikonin separated therefrom as an effective ingredient. The extract of Lithospermum erythrorhizon Sieb. Et. Zucc or acetylshikonin separated therefrom of the present invention has neuronal protective effect, so that it not only interrupts the development of ischemic neuronal diseases but also is very safe, indicating that the extract or acetylshikonin can be used as a medicinal drug for prevention and treatment of degenerative brain disease caused by neuronal apoptosis such as stroke, apoplexy, dementia, Alzheimer's disease, Parkinson's disease, Huntington's disease, Pick's disease and Creutzfeldt-Jakob disease and further can be developed as functional health food.Type: ApplicationFiled: June 13, 2007Publication date: December 18, 2008Applicant: Industry Academic Cooperation Foundation of KyungHee UniversityInventors: Ho Cheol Kim, Ha Young Lee, Ni Na Ha, Min Jung Kong, Seung Ju Rho, Nak Sul Seong, Geum Soog Kim, Yun Tai Kim, Youngmin Bu
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Patent number: 7459572Abstract: There is provided a process for preparing a glycidyl derivative from 3-chloro-1,2-propanediol, comprising i) adding a phosphate salt to a solution into which 3-chloro-1,2-propanediol is dissolved into a solvent to produce glycidol, and ii) adding to the solution of step i) a base capable of releasing a glycidyl group from the glycidol and a substrate susceptible to nucleophilic attack to produce the desired glycidyl derivative by nucleophilic attack of the glycidyl group to the substrate.Type: GrantFiled: August 19, 2004Date of Patent: December 2, 2008Assignee: RSTECH CorporationInventors: Seong-Jin Kim, Ho-Seong Lee, Jin-Won Yun, Ho-Cheol Kim
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Patent number: 7459183Abstract: A method of forming a structure. The method including: forming a precursor layer on a substarte, the precursor layer including a resin and, polymeric nano-particles dispersed in the resin, and a solvent, each the polymeric nano-particle comprising a multi-arm core polymer and pendent polymers attached to the milti-arm core polymer and pendent polymers attached to the multi-arm core polymer, the multi-arm core polymer immiscible with the resin and the pendent polymers miscuble with the resin; heating the precursor layer to cross-link at least about 90% of the resin thereby converting the pre-baked precursor layer to a dielectric layer; forming trenches in the dielectric layer and filling the trenches with an electrical conductor; heating the dielectric layer to thermally decompose at least acout 99.5% of the polymeric nano-particles into decomposition products and to drive the decomposition products out of the dielectric layer.Type: GrantFiled: July 27, 2005Date of Patent: December 2, 2008Assignee: International Business Machines CorporationInventors: Geraud Jean-Michel Dubois, James Lupton Hedrick, Ho-Cheol Kim, Victor Yee-Way Lee, Teddie Peregrino Magbitang, Robert Dennis Miller, Muthumanickam Sankarapandian, Linda Karin Sundberg, Willi Volksen
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Publication number: 20080233323Abstract: A method. A first copolymer is provided. A substrate is provided having an energetically neutral surface layer with at least one trough integrally disposed thereon with sidewalls. A first film of the first copolymer is coated inside the trough. Line-forming microdomains are assembled of the first copolymer forming first self-assembled structures within the first film normal to the sidewalls and parallel to the surface layer. The first and second polymer blocks are removed from the first film and oriented structures remain in the trough normal to the sidewalls and parallel to the surface layer. A second film of a second copolymer is coated inside the trough. Line-forming microdomains are assembled of the second copolymer, and form second self-assembled structures within the second film oriented normal to the oriented structures and parallel to the sidewalls. The third and fourth polymer blocks are removed, and at least one second oriented structure remains.Type: ApplicationFiled: March 23, 2007Publication date: September 25, 2008Inventors: Joy Cheng, Ho-Cheol Kim, Robert D. Miller
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Publication number: 20080233343Abstract: Methods and a structure. A first film of a first block copolymer is formed inside a trough integrally disposed on an energetically neutral surface layer of a substrate. Line-forming microdomains are assembled of the first block copolymer, and form first self-assembled structures within the first film normal to the sidewalls and parallel to the surface layer. At least one microdomain is removed from the first film such that oriented structures remain in the trough oriented normal to the sidewalls and parallel to the surface layer. A second film of a second block copolymer is formed inside the trough. Line-forming microdomains are assembled of the second block copolymer, and form second self-assembled structures within the second film oriented normal to the oriented structures and parallel to the sidewalls. A second method and a structure are also provided.Type: ApplicationFiled: April 3, 2008Publication date: September 25, 2008Applicant: INTERNATIONAL BUSINESS MACHINES CORPORATIONInventors: Joy Cheng, Ho-Cheol Kim, Robert D. Miller
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Publication number: 20080234508Abstract: Disclosed relates to a process for preparing N(5)-ethylglutamines economically without a specific purification process via a simplified and safe process, in which glutamic acid derivatives, represented by formula 1, protected by phthaloyl groups react with ethylamine to cause an amidation and a deprotection reaction in turn under the same reaction condition, thus preparing N(5)-ethylglutamines.Type: ApplicationFiled: May 18, 2006Publication date: September 25, 2008Applicants: DONGBU FINE CHEMICALS CO., LTD, CHIROCHEM CO., LTDInventors: Ho Seong Lee, Jeong Ho Song, Ho Cheol Kim
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Publication number: 20080213556Abstract: A material and an associated method of formation. A self-assembling block copolymer that includes a first block species and a second block species respectively characterized by a volume fraction of F1 and F2 with respect to the self-assembling block copolymer is provided. At least one crosslinkable polymer that is miscible with the second block species is provided. The self-assembling block copolymer and the at least one crosslinkable polymer are combined to form a mixture. The mixture having a volume fraction, F3, of the crosslinkable polymer, a volume fraction, F1A, of the first block species, and a volume fraction, F2A, of the second block species is formed. A material having a predefined morphology where the sum of F2A and F3 were preselected is formed.Type: ApplicationFiled: April 2, 2008Publication date: September 4, 2008Inventors: Jennifer Nam Cha, James Lupton Hedrick, Ho-Cheol Kim, Robert Dennis Miller, Willi Volksen