Patents by Inventor Yong Jee
Yong Jee 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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Publication number: 20240185459Abstract: An apparatus and method for calibration between wide angle-narrow angle lenses through a dual-ChArUco board is disclosed. A method of calibration between wide angle-narrow angle lenses through a dual-ChArUco board includes recognizing a first pattern through a wide-angle lens of a first sensor and recognizing a second pattern through a narrow-angle lens of a second sensor, storing the first pattern and the second pattern; and calibrating the stored first pattern and the stored second pattern.Type: ApplicationFiled: June 28, 2023Publication date: June 6, 2024Inventors: Joong Yong CHOI, Hyun Joo KIM, Ah Reum OH, Hyung Keun JEE
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Publication number: 20240179978Abstract: A display device comprises a substrate; a circuit array layer comprising pixel drivers, data lines, first dummy lines, and second dummy lines; and a light emitting array layer. The display area comprises middle, first side, and second side regions. The data lines comprise first, second, and third data lines disposed in the middle, first side, and second side regions, respectively. The first dummy lines comprise a first data detour line disposed in the first side region and adjacent to a part of the second data line, and auxiliary lines. The second dummy lines comprise a second data detour line configured to connect the first data detour line to the third data line, and additional lines. The auxiliary lines comprise a bias auxiliary line to which a bias power is applied; and a second power auxiliary line to which a second power is applied.Type: ApplicationFiled: February 8, 2024Publication date: May 30, 2024Inventors: Jin Sung AN, Sung Ho KIM, Yong Jae KIM, Yun Hwan PARK, Yoon Jee SHIN, Sug Woo JUNG, Hyun Wook CHOI
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Patent number: 11937476Abstract: A display device comprises a substrate; a circuit array layer comprising pixel drivers, data lines, first dummy lines, and second dummy lines; and a light emitting array layer. The display area comprises middle, first side, and second side regions. The data lines comprise first, second, and third data lines disposed in the middle, first side, and second side regions, respectively. The first dummy lines comprise a first data detour line disposed in the first side region and adjacent to a part of the second data line, and auxiliary lines. The second dummy lines comprise a second data detour line configured to connect the first data detour line to the third data line, and additional lines. The auxiliary lines comprise a bias auxiliary line to which a bias power is applied; and a second power auxiliary line to which a second power is applied.Type: GrantFiled: May 4, 2023Date of Patent: March 19, 2024Assignee: Samsung Display Co., Ltd.Inventors: Jin Sung An, Sung Ho Kim, Yong Jae Kim, Yun Hwan Park, Yoon Jee Shin, Sug Woo Jung, Hyun Wook Choi
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Patent number: 9508974Abstract: A PET nonwoven fabric for a separator for a secondary battery includes first fibers composed of PET having a melting temperature of 240° C. or more and second fibers composed of PET having a melting temperature of 180˜220° C., respective fibers having two types of fibers having different diameters, and has a fine pore size and uniform pore distribution and exhibits superior surface properties, low surface defects, high mechanical strength and excellent mass production. Even when the temperature of a battery is increased to 200° C. or more, the PET nonwoven fabric has heat resistance which prevents thermal runaway and does not generate melting and shrinking.Type: GrantFiled: November 9, 2012Date of Patent: November 29, 2016Assignee: TOPTEC HNS CO., LTD.Inventors: Hyang Doo Lee, Suk Hwa You, Chun Gi Kang, Seung Yong Jee, Do Hyeuk Hwang, Chang Gyu Ahn, Byoung Min Kwon, Hyun Sook Kim
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Publication number: 20150221916Abstract: A PET nonwoven fabric for a separator for a secondary battery includes first fibers composed of PET having a melting temperature of 240° C. or more and second fibers composed of PET having a melting temperature of 180˜220° C., respective fibers having two types of fibers having different diameters, and has a fine pore size and uniform pore distribution and exhibits superior surface properties, low surface defects, high mechanical strength and excellent mass production. Even when the temperature of a battery is increased to 200° C. or more, the PET nonwoven fabric has heat resistance which prevents thermal runaway and does not generate melting and shrinking.Type: ApplicationFiled: November 9, 2012Publication date: August 6, 2015Inventors: Hyang Doo Lee, Suk Hwa You, Chun Gi Kang, Seung Yong Jee, Do Hyeuk Hwang, Chang Gyu Ahn, Byoung Min Kwon, Hyun Sook Kim
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Patent number: 8820208Abstract: Provided is a mine detector detachably attached to the combat boot, which includes a main body detachably attached to the combat boot, and provided with a power supply, a signal transmitting part and a signal receiving part, and a detection part detachably attached to the combat boot, and provided with an antenna connected to the main body.Type: GrantFiled: July 11, 2012Date of Patent: September 2, 2014Assignee: Defense Agency for Technology and QualityInventors: Ji Hoon Kim, Jae Yong Jee, Jin Chun Ju, Kun Sung Ryu, Yong Hwa Kim, Sang Won Park, Kang Wook Kim
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Publication number: 20140123840Abstract: Provided is a mine detector detachably attached to the combat boot, which includes a main body detachably attached to the combat boot, and provided with a power supply, a signal transmitting part and a signal receiving part, and a detection part detachably attached to the combat boot, and provided with an antenna connected to the main body.Type: ApplicationFiled: July 11, 2012Publication date: May 8, 2014Inventors: Ji Hoon Kim, Jae Yong Jee, Jin Chun Ju, Kun Sung Ryu, Yong Hwa Kim, Sang Won Park, Kang Wook Kim
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Patent number: 8546093Abstract: The present invention relates to an antibody against a protein specifically expressed in methicillin-resistant strains of Staphylococcus aureus (MRSA), and a method and a kit for detecting MRSA. The present invention enables a fast and accurate detection of MRSA by using both a PBP2a-specific antibody for the detection of PBP2a and a Protein A-specific antibody for the detection of Protein A.Type: GrantFiled: June 24, 2009Date of Patent: October 1, 2013Assignee: Dinona Inc.Inventors: Hyung-Geun Song, Sang-Soon Yoon, Hae-Jung Kim, Gil-Yong Jee, Mi-Hyang Shin, Yu-Ri Moon
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Publication number: 20120070851Abstract: The present invention relates to an antibody against a protein specifically expressed in methicillin-resistant strains of Staphylococcus aureus (MRSA), and a method and a kit for detecting MRSA. The present invention enables a fast and accurate detection of MRSA by using both a PBP2a-specific antibody for the detection of PBP2a and a Protein A-specific antibody for the detection of Protein A.Type: ApplicationFiled: June 24, 2009Publication date: March 22, 2012Applicant: DiNonA Inc.Inventors: Hyung-Geun Song, Sang-Soon Yoon, Hae-Jung Kim, Gil-Yong Jee, Mi-Hyang Shin, Yu-Ri Moon
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Patent number: 8057772Abstract: Disclosed are mesoporous silica particles and a preparation method thereof, particularly, a method of preparing mesoporous silica particles, including mixing a silica precursor, an alkylamine-based surfactant, and a phosphoric acid-based cosurfactant, thus preparing a mixture solution (a mother liquor); adding or not adding the mixture solution with an acid solution, and conducting stirring, thus providing mesoporous silica particles; and thermally treating the mesoporous silica particles. These mesoporous silica particles are prepared using a phosphoric acid-based cosurfactant for stabilizing the surface of the particles to prevent the aggregation thereof, thereby uniformly distributing the particles.Type: GrantFiled: October 23, 2007Date of Patent: November 15, 2011Assignee: Korea Atomic Energy Research InstituteInventors: Jong-Yun Kim, Suk Bon Yoon, Yong-Joon Park, Myung Ho Lee, Kwang-Yong Jee
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Publication number: 20110080330Abstract: A multiband antenna system installed onto a circuit board of a mobile device is provided. The antenna system includes a planar dielectric substrate, an upper conductor formed on an upper surface of the dielectric substrate and shaped as a coplanar wave guide and includes first and second ground parts and a radiator, and a lower conductor formed on the lower surface of the dielectric substrate and shaped as a coplanar wave guide and includes third and fourth ground parts and an electrode part, via-holes that pass through the dielectric substrate and are electrically connected to the first ground part to the third, the second ground part to the fourth, and the radiator to the electrode part, respectively, and solder balls connect the electrode part to an electric wire of the circuit board and also the third and fourth ground parts to the ground of the circuit board.Type: ApplicationFiled: October 7, 2010Publication date: April 7, 2011Applicants: SAMSUNG ELECTRONICS CO. LTD., INDUSTRY-UNIVERSITY COOPERATION FOUNDATION SOKANG UNIVERSITYInventors: Joong Hee LEE, Yong JEE, Young Min SEO, Yo Han JEONG
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Patent number: 7803460Abstract: A filament type nano-sized lone fiber and a method of producing the same are disclosed. In the method, a spinning solution or a spinning melt is electro-spun in drops using a spinneret to which a critical voltage is applied, and the spun drops are continuously collected on a multi-collector. The spinning solution is produced dissolving a blend or copolymer consisting of two or more kinds of polymers in a solvent. The spinning melt is produced by melting the polymers. The multi-collector is selected from the group consisting of a plate type collector, a roll type collector, and a combination thereof. The filament type nano-sized long fiber is processed into a yarn through one step during the electrospinning process, and thus, mechanical properties are better than those of conventional nanofiber non-woven fabric. Consequently, the filament type nano-sized long fiber can be utilized for the extended application.Type: GrantFiled: September 4, 2009Date of Patent: September 28, 2010Assignee: Korea Research Institute of Chemical TechnologyInventors: Jae Rock Lee, Seung Yong Jee, Hyo Joong Kim, Young Taik Hong, Seok Kim, Soo Jin Park
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Publication number: 20100233061Abstract: Disclosed herein is a method of fabricating superhydrophobic silica-based powder, comprising: forming a hydrogel by adding an organosilane compound having alkaline pH and an inorganic acid to a non-ion-exchanged water glass solution, which is a precursor, to form a mixed solution and then surface-modifying and gelating the mixed solution; dipping the hydrogel into a nonpolar solvent to solvent-exchange the hydrogel and remove sodium ions (Na+) therefrom; and drying the solvent-exchanged hydrogel through a fluidized bed drying method under normal pressure or reduced pressure to fabricate aerogel powder. According to the method of fabricating a superhydrophobic silica-based powder of the present invention, the process thereof is very simple and economical. Therefore, the present invention is expected to be industrially important.Type: ApplicationFiled: March 29, 2010Publication date: September 16, 2010Applicant: EM-Power Co., Ltd.Inventors: Ho Sung Park, Sharad D. Bhagat, Jong-Hyun Lim, Young-Chul Joung, Seung-Yong Jee, Jong-Chul Park, In-Soon Jung
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Publication number: 20100172815Abstract: Disclosed is a method of manufacturing superhydrophobic silica-based powder, including adding a water glass solution, which is not subjected to ion exchange, serving as a precursor, with an organosilane compound having an alkaline pH and an inorganic acid to thus subject the water glass solution to surface modification and gelation, thereby producing hydrogel, immersing the hydrogel in a nonpolar solvent to thus subject the hydrogel to solvent exchange and Na+ removal, and drying the hydrogel, subjected to solvent exchange, at ambient pressure, thereby manufacturing aerogel powder. This invention is very important from an industrial point of view because it involves a very simple process and realizes economic benefits.Type: ApplicationFiled: December 4, 2007Publication date: July 8, 2010Applicant: EM-Power Co., Ltd.Inventors: Ho Sung Park, Sharad D. Bhagat, Jong-Hyun Lim, Young-Chul Joung, Jong-Chul Park, Seung-Yong Jee
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Patent number: 7749469Abstract: Disclosed is a process for recovery of uranium from a spent nuclear fuel using a carbonate solution, characterized by excellent proliferation resistance of preventing leaching of transuranium element (TRU) nuclides such as Pu, Np, Am, Cm, etc. from the spent nuclear fuel as well as environmental friendliness of minimizing waste generation, wherein a highly alkaline carbonate solution is used to separate uranium alone from the spent nuclear fuel.Type: GrantFiled: December 17, 2008Date of Patent: July 6, 2010Assignee: Korea Atomic Energy Research InstituteInventors: Kwang Wook Kim, Eil Hee Lee, Dong Young Chung, Han Bum Yang, Jae Kwan Lim, Kee Soo Cho, Kee Chan Song, Kyu Seok Song, Kwang Yong Jee
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Publication number: 20100021732Abstract: A filament type nano-sized lone fiber and a method of producing the same are disclosed. In the method, a spinning solution or a spinning melt is electro-spun in drops using a spinneret to which a critical voltage is applied, and the spun drops are continuously collected on a multi-collector. The spinning solution is produced dissolving a blend or copolymer consisting of two or more kinds of polymers in a solvent. The spinning melt is produced by melting the polymers. The multi-collector is selected from the group consisting of a plate type collector, a roll type collector, and a combination thereof. The filament type nano-sized long fiber is processed into a yarn through one step during the electrospinning process, and thus, mechanical properties are better than those of conventional nanofiber non-woven fabric. Consequently, the filament type nano-sized long fiber can be utilized for the extended application.Type: ApplicationFiled: September 4, 2009Publication date: January 28, 2010Applicant: KOREA RESEARCH INSTITUTE OF CHEMICAL TECHNOLOGYInventors: Jae-Rock Lee, Seung-Yong Jee, Hyo-Jung Kim, Young-Taik Hong, Seok Kim, Soo-Jin Park
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Publication number: 20090269261Abstract: Disclosed is a process for recovery of uranium from a spent nuclear fuel using a carbonate solution, characterized by excellent proliferation resistance of preventing leaching of transuranium element (TRU) nuclides such as Pu, Np, Am, Cm, etc. from the spent nuclear fuel as well as environmental friendliness of minimizing waste generation, wherein a highly alkaline carbonate solution is used to separate uranium alone from the spent nuclear fuel.Type: ApplicationFiled: December 17, 2008Publication date: October 29, 2009Applicant: Korea Atomic Energy Research InstituteInventors: Kwang Wook KIM, Eil Hee Lee, Dong Young Chung, Han Bum Yang, Jae Kwan Lim, Kee Soo Cho, Kee Chan Song, Kyu Seok Song, Kwang Yong Jee
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Publication number: 20090117380Abstract: A filament type nano-sized long fiber and a method of producing the same. In the method, a spinning solution or a spinning melt is electro-spun in drops using a spinneret to which a critical voltage is applied, and the spun drops are continuously collected on a multi-collector. The spinning solution is produced by dissolving a blend or copolymer consisting of two or more kinds of polymers in a solvent. The spinning melt is produced by melting the polymers. The multi-collector is selected from the group consisting of a plate type collector, a roll type collector, and a combination thereof. The filament type nano-sized long fiber is processed into a yarn through one step during the electrospinning process, and thus, mechanical properties are better than those of a conventional nanofiber non-woven fabric. Consequently, the filament type nano-sized long fiber can be utilized for the extended application.Type: ApplicationFiled: May 15, 2006Publication date: May 7, 2009Applicant: Korea Research Institute of Chemical TechnologyInventors: Jae-Rock Lee, Seung-Yong Jee, Hyo-Joong Kim, Young-Taik Hong, Seok Kim, Soo-Jin Park
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Publication number: 20080286187Abstract: Disclosed are mesoporous silica particles and a preparation method thereof, particularly, a method of preparing mesoporous silica particles, including mixing a silica precursor, an alkylamine-based surfactant, and a phosphoric acid-based cosurfactant, thus preparing a mixture solution (a mother liquor); adding or not adding the mixture solution with an acid solution, and conducting stirring, thus providing mesoporous silica particles; and thermally treating the mesoporous silica particles. These mesoporous silica particles are prepared using a phosphoric acid-based cosurfactant for stabilizing the surface of the particles to prevent the aggregation thereof, thereby uniformly distributing the particles.Type: ApplicationFiled: October 23, 2007Publication date: November 20, 2008Applicant: KOREA ATOMIC ENERGY RESEARCH INSTITUTEInventors: Jong-Yun KIM, Suk Bon YOON, Yong-Joon PARK, Myung Ho LEE, Kwang-Yong JEE
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Publication number: 20080241538Abstract: A filament type nano-sized long fiber and a method of producing the same are disclosed. In the method, a spinning solution or a spinning melt is electro-spun in drops using a spinneret to which a critical voltage is applied, and the spun drops are continuously collected on a multi-collector. The spinning solution is produced by dissolving a blend or copolymer consisting of two or more kinds of polymers in a solvent. The spinning melt is produced by melting the polymers. The multi-collector is selected from the group consisting of a plate type collector, a roll type collector, and a combination thereof. The filament type nano-sized long fiber is processed into a yarn through one step during the electrospinning process, and thus, mechanical properties are better than those of a conventional nanofiber non-woven fabric. Consequently, the filament type nano-sized long fiber can be utilized for the extended application.Type: ApplicationFiled: September 17, 2004Publication date: October 2, 2008Applicant: KOREA RESEARCH INSTITUTE OF CHEMICAL TECHNOLOGYInventors: Jae-Rock Lee, Seung-Yong Jee, Hyo-Jung Kim, Young-Taik Hong, Seok Kim, Soo-Jin Park