Patents by Inventor Moo Hyun Choi
Moo Hyun Choi 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: 11956997Abstract: A display device according to an exemplary embodiment includes: a substrate including a display area and a transmission area; a metal blocking layer disposed in the display area of the substrate; an inorganic insulating layer disposed on the metal blocking film; a transistor disposed on the inorganic insulating layer; an emission layer connected to the transistor; and a light blocking layer and a color filter disposed on the emission layer of the display area, wherein the edge of the light blocking layer is protruded toward the transmission area more than the edge of the metal blocking layer.Type: GrantFiled: August 23, 2021Date of Patent: April 9, 2024Assignee: Samsung Display Co., Ltd.Inventors: Se Wan Son, Nak Cho Choi, Moo Soon Ko, Dong Hyun Son, Sang Hoon Oh, Jin Goo Jung, Kyung Hyun Choi, Hae-Yeon Lee, Seong Min Cho
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Patent number: 11946607Abstract: A lighting device disclosed in an embodiment of the invention includes a substrate; light sources disposed on the substrate; and a resin layer disposed on the substrate and the light sources. a first reflective layer disposed on the resin layer, wherein the resin layer includes an exit surface facing the light sources, and the exit surface of the resin layer includes convex portions facing each of the light sources and recess portions respectively disposed between the plurality of convex portions, concave surfaces disposed in each of the plurality of recess portions may have a curvature, and a radius of curvature of the concave surfaces may increase in one direction.Type: GrantFiled: February 27, 2023Date of Patent: April 2, 2024Assignee: LG INNOTEK CO., LTD.Inventors: Young Jae Choi, Dong Hyun Lee, Ki Chang Lee, Gyeong Il Jin, Moo Ryong Park
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Patent number: 11339444Abstract: A method for detecting genes sensitive to low-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to low-level ionizing radiation and related to suppressing thymic cancer, discovered in a carcinogenic entity and verified in a normal entity are detected by subjecting a cancerous AKR/J mouse and a normal ICR mouse to low-level radiation. Thymus is collected therefrom, immunogenic and apoptotic genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: November 16, 2018Date of Patent: May 24, 2022Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTDInventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Patent number: 11339443Abstract: A method for detecting genes sensitive to low-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to low-level ionizing radiation and related to suppressing thymic cancer, discovered in a carcinogenic entity and verified in a normal entity are detected by subjecting a cancerous AKR/J mouse and a normal ICR mouse to low-level radiation. Thymus is collected therefrom, immunogenic and apoptotic genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: November 16, 2018Date of Patent: May 24, 2022Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTD.Inventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Patent number: 11339445Abstract: A method for detecting genes sensitive to low-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to low-level ionizing radiation and related to suppressing thymic cancer, discovered in a carcinogenic entity and verified in a normal entity are detected by subjecting a cancerous AKR/J mouse and a normal ICR mouse to low-level radiation. Thymus is collected therefrom, immunogenic and apoptotic genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: November 16, 2018Date of Patent: May 24, 2022Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTDInventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Patent number: 10844438Abstract: A method for detecting genes sensitive to high-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to high-level ionizing radiation discovered in a carcinogenic entity and verified in a normal entity are detected, by subjecting a cancerous AKR/J mouse and a normal ICR mouse to high-level radiation. Thymus is collected therefrom and fatty acid metabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, the present invention allows a gene having a specific reaction to radiation to be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: April 18, 2018Date of Patent: November 24, 2020Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTDInventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Patent number: 10844439Abstract: A method for detecting genes sensitive to high-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to high-level ionizing radiation discovered in a carcinogenic entity and verified in a normal entity are detected, by subjecting a cancerous AKR/J mouse and a normal ICR mouse to high-level radiation. Thymus is collected therefrom and fatty acid metabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, the present invention allows a gene having a specific reaction to radiation to be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: April 18, 2018Date of Patent: November 24, 2020Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTDInventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Patent number: 10844440Abstract: A method for detecting genes sensitive to high-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to high-level ionizing radiation discovered in a carcinogenic entity and verified in a normal entity are detected, by subjecting a cancerous AKR/J mouse and a normal ICR mouse to high-level radiation. Thymus is collected therefrom and fatty acid metabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, the present invention allows a gene having a specific reaction to radiation to be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: April 18, 2018Date of Patent: November 24, 2020Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTDInventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Patent number: 10760134Abstract: A method for detecting genes sensitive to high-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to high-level ionizing radiation discovered in a carcinogenic entity and verified in a normal entity are detected, by subjecting a cancerous AKR/J mouse and a normal ICR mouse to high-level radiation. Thymus is collected therefrom and fatty acid metabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, the present invention allows a gene having a specific reaction to radiation to be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: April 18, 2018Date of Patent: September 1, 2020Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTDInventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Publication number: 20190085409Abstract: A method for detecting genes sensitive to low-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to low-level ionizing radiation and related to suppressing thymic cancer, discovered in a carcinogenic entity and verified in a normal entity are detected by subjecting a cancerous AKR/J mouse and a normal ICR mouse to low-level radiation. Thymus is collected therefrom, immunogenic and apoptotic genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: ApplicationFiled: November 16, 2018Publication date: March 21, 2019Inventors: Hee Sun KIM, Seung Jin CHOI, Moo Hyun CHOI, Jin Jong BONG, Seok Cheol SHIN
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Publication number: 20190085408Abstract: A method for detecting genes sensitive to low-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to low-level ionizing radiation and related to suppressing thymic cancer, discovered in a carcinogenic entity and verified in a normal entity are detected by subjecting a cancerous AKR/J mouse and a normal ICR mouse to low-level radiation. Thymus is collected therefrom, immunogenic and apoptotic genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: ApplicationFiled: November 16, 2018Publication date: March 21, 2019Inventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Publication number: 20190071734Abstract: A method for detecting genes sensitive to low-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to low-level ionizing radiation and related to suppressing thymic cancer, discovered in a carcinogenic entity and verified in a normal entity are detected by subjecting a cancerous AKR/J mouse and a normal ICR mouse to low-level radiation. Thymus is collected therefrom, immunogenic and apoptotic genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: ApplicationFiled: November 16, 2018Publication date: March 7, 2019Inventors: Hee Sun KIM, Seung Jin CHOI, Moo Hyun CHOI, Jin Jong BONG, Seok Cheol SHIN
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Patent number: 10174379Abstract: A method for detecting genes sensitive to low-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to low-level ionizing radiation and related to suppressing thymic cancer, discovered in a carcinogenic entity and verified in a normal entity are detected by subjecting a cancerous AKR/J mouse and a normal ICR mouse to low-level radiation. Thymus is collected therefrom, immunogenic and apoptotic genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: May 18, 2012Date of Patent: January 8, 2019Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTD.Inventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Publication number: 20180251857Abstract: A method for detecting genes sensitive to high-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to high-level ionizing radiation discovered in a carcinogenic entity and verified in a normal entity are detected, by subjecting a cancerous AKR/J mouse and a normal ICR mouse to high-level radiation. Thymus is collected therefrom and fatty acid metabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, the present invention allows a gene having a specific reaction to radiation to be accurately detected by preventing the interference of confounding variables.Type: ApplicationFiled: April 18, 2018Publication date: September 6, 2018Inventors: Hee Sun KIM, Seung Jin CHOI, Moo Hyun CHOI, Jin Jong BONG, Seok Cheol SHIN
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Publication number: 20180251855Abstract: A method for detecting genes sensitive to high-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to high-level ionizing radiation discovered in a carcinogenic entity and verified in a normal entity are detected, by subjecting a cancerous AKR/J mouse and a normal ICR mouse to high-level radiation. Thymus is collected therefrom and fatty acid metabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, the present invention allows a gene having a specific reaction to radiation to be accurately detected by preventing the interference of confounding variables.Type: ApplicationFiled: April 18, 2018Publication date: September 6, 2018Inventors: Hee Sun KIM, Seung Jin CHOI, Moo Hyun CHOI, Jin Jong BONG, Seok Cheol SHIN
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Publication number: 20180251856Abstract: A method for detecting genes sensitive to high-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to high-level ionizing radiation discovered in a carcinogenic entity and verified in a normal entity are detected, by subjecting a cancerous AKR/J mouse and a normal ICR mouse to high-level radiation. Thymus is collected therefrom and fatty acid metabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, the present invention allows a gene having a specific reaction to radiation to be accurately detected by preventing the interference of confounding variables.Type: ApplicationFiled: April 18, 2018Publication date: September 6, 2018Inventors: Hee Sun KIM, Seung Jin CHOI, Moo Hyun CHOI, Jin Jong BONG, Seok Cheol SHIN
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Publication number: 20180237865Abstract: A method for detecting genes sensitive to high-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to high-level ionizing radiation discovered in a carcinogenic entity and verified in a normal entity are detected, by subjecting a cancerous AKR/J mouse and a normal ICR mouse to high-level radiation. Thymus is collected therefrom and fatty acid metabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, the present invention allows a gene having a specific reaction to radiation to be accurately detected by preventing the interference of confounding variables.Type: ApplicationFiled: April 18, 2018Publication date: August 23, 2018Inventors: Hee Sun KIM, Seung Jin CHOI, Moo Hyun CHOI, Jin Jong BONG, Seok Cheol SHIN
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Patent number: 9976186Abstract: A method for detecting genes sensitive to high-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to high-level ionizing radiation discovered in a carcinogenic entity and verified in a normal entity are detected, by subjecting a cancerous AKR/J mouse and a normal ICR mouse to high-level radiation. Thymus is collected therefrom and fatty acid metabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: May 17, 2012Date of Patent: May 22, 2018Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTD.Inventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Patent number: 9714453Abstract: A method for detecting genes sensitive to low-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to low-level ionizing radiation, discovered in a carcinogenic entity and verified in a normal entity are detected by subjecting a cancerous AKR/J mouse and a normal ICR mouse to low-level radiation. Thymus is collected therefrom, and glycometabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: November 8, 2016Date of Patent: July 25, 2017Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTD.Inventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin
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Patent number: 9708668Abstract: A method for detecting genes sensitive to low-level ionizing radiation and genes detected by the method. More specifically, genes sensitive to low-level ionizing radiation, discovered in a carcinogenic entity and verified in a normal entity are detected by subjecting a cancerous AKR/J mouse and a normal ICR mouse to low-level radiation. Thymus is collected therefrom, and glycometabolism-related genes are classified via microarray processing of the thymus. The genes are amplified and the levels of gene expression are measured. Thus, a gene having a specific reaction to radiation can be accurately detected by preventing the interference of confounding variables.Type: GrantFiled: November 8, 2016Date of Patent: July 18, 2017Assignee: KOREA HYDRO & NUCLEAR POWER CO., LTD.Inventors: Hee Sun Kim, Seung Jin Choi, Moo Hyun Choi, Jin Jong Bong, Seok Cheol Shin