IDiyas

For the Inventor, By the Inventor

Daejeon, South Korea

Seung Jae Lee

USPTO Granted Patents = 38 

 

Average Co-Inventor Count = 4.7

ph-index = 4

Forward Citations = 70(Granted Patents)


Location History:

  • Daejon, KR (2013)
  • Daejeon-si, KR (2018 - 2019)
  • Bucheon-si, KR (2019 - 2022)
  • Gyeonggi-do, KR (2007 - 2023)
  • Daejeon, KR (2014 - 2023)
  • Gwangmyeong-Si, KR (2024)

Company Filing History:

goldMedal10 out of 18,523 
 
Hyundai Motor Company
 patents
silverMedal8 out of 11,277 
 
Electronics and Telecommunications Research Institute
 patents
bronzeMedal8 out of 8,087 
 
Kia Motors Corporation
 patents
48 out of 68 
 
Kepco Nuclear Fuel Co., Ltd.
 patents
53 out of 131,214 
 
Samsung Electronics Co., Ltd.
 patents
63 out of 140 
 
University of Seoul Industry Cooperation Foundation
 patents
72 out of 1,009 
 
Amkor Technology, Inc.
 patents
82 out of 4,013 
 
Kia Corporation
 patents
92 out of 2,607 
 
Korea Advanced Institute of Science and Technology
 patents
101 out of 1,557 
 
Seoul National University
 patents
111 out of 172 
 
Koh Young Technology Inc.
 patents
121 out of 3 
 
Daewoong Bio Inc.
 patents
131 out of 352 
 
Lg Hausys, Ltd.
 patents
141 out of 32 
 
Gs Caltex Corporation
 patents
151 out of 419 
 
Korea Institute of Energy Research
 patents
161 out of 1 
 
Kyounggi University Industry & Academia Cooperation Foundation
 patent
171 out of 76 
 
Daewoong Pharmaceutical Co., Ltd.
 patents
181 out of 832,680 
Other
 patents
where one patent can have more than one assignee

Years Active: 2007-2025

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38 patents (USPTO):
1. 12412167 - Electronic toll collection system and control method for the same (2025-09-09),
2. 11967185 - ETCS terminal and control method for the same (2024-04-23),
3. 11715571 - Method for process for producing fully ceramic microencapsulated fuels containing tristructural-isotropic particles with a coating layer having higher shrinkage than matrix (2023-08-01),
4. 11603584 - Ferritic alloy and method of manufacturing nuclear fuel cladding tube using the same (2023-03-14),
5. 11580887 - Circuit for detecting crack in display and electronic device including same (2023-02-14),
6. 11531843 - Substrate inspection apparatus and method of determining fault type of screen printer (2022-12-20),
7. 11527333 - Fully ceramic microencapsulated fuels containing tristructural-isotropic particles with a coating layer having higher shrinkage than matrix (2022-12-13),
8. 11429016 - Projection device (2022-08-30),
9. 11424042 - Nuclear-fuel sintered pellets based on oxide in which fine precipitate material is dispersed in circumferential direction and method of manufacturing same (2022-08-23),
10. 11341183 - Apparatus and method for searching for building based on image and method of constructing building search database for image-based building search (2022-05-24),
11. 11313258 - Continuous variable valve duration apparatus and engine provided with the same (2022-04-26),
12. 11228882 - Apparatus and method for controlling wireless communication linkage in vehicle (2022-01-18),
13. 11195628 - Method of manufacturing a corrosion-resistant zirconium alloy for a nuclear fuel cladding tube (2021-12-07),
14. 11182651 - Method and apparatus for high speed object detection using artificial neural network (2021-11-23),
15. 11120714 - Circuit for detecting crack in display and electronic device including same (2021-09-14),

Title: **Innovations of Seung Jae Lee in Nuclear Fuel Technology**

Introduction

Seung Jae Lee is a prominent inventor based in Daejeon, South Korea, renowned for his significant contributions to the field of nuclear fuel technology. With a total of 27 patents to his name, Lee has developed innovative methods that aim to enhance the safety and efficiency of nuclear power generation.

Latest Patents

Lee's latest inventions include a groundbreaking method for producing fully ceramic microencapsulated fuels that contain tristructural-isotropic particles. This method focuses on creating a ceramic coating layer that possesses a higher shrinkage rate than the matrix itself, thus preventing the cracking of ceramic nuclear fuels. The invention highlights a composition that uses silicon carbide, which is critical in minimizing residual porosity to 4% or less.

Another notable patent involves a ferritic alloy specifically designed to withstand nuclear power plant accidents. This alloy, which consists of iron, aluminum, chromium, and nickel, showcases remarkable resilience and is utilized in manufacturing nuclear fuel cladding tubes. The nickel concentration in the alloy is set between 0.5 to 10 wt%, while chromium and aluminum account for 13 to 18 wt% and 5 to 7 wt%, respectively.

Career Highlights

Seung Jae Lee has held positions at reputable institutions such as the Electronics and Telecommunications Research Institute and Kepco Nuclear Fuel Corporation. His work at these organizations has enabled him to pursue innovative research focused on improving nuclear fuel technologies.

Collaborations

Throughout his career, Lee has collaborated with other experts in the field, including notable coworkers like Keun Dong Lee and Weon Geun Oh. These collaborations have facilitated the development of patented technologies that contribute to advancements in nuclear energy safety and efficiency.

Conclusion

Seung Jae Lee's innovations and patents reflect his commitment to advancing nuclear fuel technology. His work not only enhances the safety of nuclear energy production but also showcases the potential for further innovation in this critical field. As he continues to develop new methods, the impact of his contributions to the industry is expected to grow significantly.

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