Jeong; Yong-Hwan

Patent Applications and Registrations

Patent applications and USPTO patent grants for Jeong; Yong-Hwan.The latest application filed is for "semiconductor device".

Company Profile

0.10.16

Jeong; Yong-Hwan - Daejeon KR
Jeong; Yong-hwan - Hwaseong-si KR
Jeong; Yong Hwan - Namyangju-si KR
Jeong; Yong Hwan - Yuseong-gu KR
Jeong; Yong Hwan - Taejon-si KR
Jeong, Yong Hwan - Yusong-ku KR
Jeong; Yong Hwan - Taejon-ku KR

*profile and listings may contain filings by different individuals or companies with the same name. Review application materials to confirm ownership/assignment.

Patent Activity

Patent	Date
Ferritic/martensitic oxide dispersion strengthened steel with enhanced creep resistance and method of manufacturing the same Grant 10,011,893 - Kim , et al. July 3, 2	2018-07-03
Semiconductor device Grant 9,911,706 - Cho , et al. March 6, 2	2018-03-06
Machinable zirconia comprising titania nanopowder Grant 9,545,363 - Kim , et al. January 17, 2	2017-01-17
Semiconductor Device App 20160133586 - CHO; Chang-hyun ; et al.	2016-05-12
Ferritic/martensitic Oxide Dispersion Strengthened Steel With Enhanced Creep Resistance And Method Of Manufacturing The Same App 20150252458 - Kim; Tae Kyu ; et al.	2015-09-10
Machinable Zirconia App 20150183690 - KIM; Dae-Joon ; et al.	2015-07-02
Method for detection of radiation-induced damage to biomaterial using magnetic sensor and magnetic sensor biochip for biodosimetry using the same Grant 9,069,082 - Park , et al. June 30, 2	2015-06-30
Martensitic Oxide Dispersion Strengthened Alloy With Enhanced High-temperature Strength And Creep Property, And Method Of Manufacturing The Same App 20140294653 - Kim; Tae Kyu ; et al.	2014-10-02
Semiconductor device having a plurality of pads Grant 8,786,303 - Kim , et al. July 22, 2	2014-07-22
Method For Detection Of Radiation-induced Damage To Biomaterial Using Magnetic Sensor And Magnetic Sensor Biochip For Biodosimetry Using The Same App 20130323844 - PARK; Deuk-Gun ; et al.	2013-12-05
Zirconium Alloy Compositions Having Excellent Corrosion Resistance By The Control Of Various Metal-oxide And Precipitate And Preparation Method Thereof App 20120145287 - Kim; Hyun Gil ; et al.	2012-06-14
High Fe contained zirconium alloy compositions having excellent corrosion resistance and preparation method thereof Grant 8,070,892 - Jeong , et al. December 6, 2	2011-12-06
Semiconductor Device Having A Plurality Of Pads App 20110043235 - Kim; Kab Yong ; et al.	2011-02-24
Process Of Manufacturing Zirconium Alloy For Fuel Guide Tube And Measuring Tube Having High Strength And Excellent Corrosion Resistance App 20100322370 - Kim; Hyun Gil ; et al.	2010-12-23
Zirconium Alloy Composition For Nuclear Fuel Cladding Tube Forming Protective Oxide Film, Zirconium Alloy Nuclear Fuel Cladding Tube Manufactured Using The Composition, And Method Of Manufacturing The Zirconium Alloy Nuclear Fuel Cladding Tube App 20100108204 - Park; Jeong-Yong ; et al.	2010-05-06
High Fe contained zirconium alloy compositions having excellent corrosion resistance and preparation method thereof App 20080192880 - Jeong; Yong Hwan ; et al.	2008-08-14
Zirconium Alloy Composition Having Excellent Corrosion Resistance For Nuclear Applications And Method Of Preparing The Same App 20080131306 - Jeong; Yong Hwan ; et al.	2008-06-05
Semiconductor device having fuse circuits App 20070058316 - Lim; Jong-Hyoung ; et al.	2007-03-15
Zirconium based alloys having excellent creep resistance App 20060177341 - Jeong; Yong Hwan ; et al.	2006-08-10
Method for manufacturing zirconium-based alloys containing niobium for use in nuclear fuel rod cladding Grant 6,902,634 - Jeong , et al. June 7, 2	2005-06-07
Zirconium alloy having excellent corrosion resistance and mechanical properties for nuclear fuel cladding tube Grant 6,811,746 - Jeong , et al. November 2, 2	2004-11-02
Method for manufacturing zirconium-based alloys containing niobium for use in nuclear fuel rod cladding App 20030098105 - Jeong, Yong Hwan ; et al.	2003-05-29
Zirconium alloy having excellent corrosion resistance and mechanical properties and method for preparing nuclear fuel cladding tube by zirconium alloy App 20030044306 - Jeong, Yong Hwan ; et al.	2003-03-06
Method for manufacturing a tube and a sheet of niobium-containing zirconium alloy for a high burn-up nuclear fuel App 20020136347 - Jeong, Yong Hwan ; et al.	2002-09-26
Method for production of mono-dispersed and crystalline TiO.sub.2 ultrafine powders for aqueous TiOCl.sub.2 solution using homogeneous precipitation Grant 6,001,326 - Kim , et al. December 14, 1	1999-12-14

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