Company Filing History:

21 out of 1,960

Showa Denko K.k.

Showa Denko Kabushiki Kaisha

patents

Years Active: 1994-2022

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23 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 11358927 - Method of producing N,N-disubstituted amide and catalyst for producing N,N-disubstituted amide (2022-06-14),

2. 11319278 - Method for producing glycine (2022-05-03),

3. 10774037 - Method for producing alpha-amino acid (2020-09-15),

4. 9109072 - Curable composition and uses thereof (2015-08-18),

5. 8840830 - Method of molding (2014-09-23),

6. 8349934 - Hardening composition and hardened product thereof (2013-01-08),

7. 8283095 - Thiourethane compound and photosensitive resin composition (2012-10-09),

8. 8242217 - Epoxy resin curing agent, process for preparing the same, and epoxy resin composition (2012-08-14),

9. 8053167 - Curable compositions containing hydroxythiol compound, and cured products thereof (2011-11-08),

10. 7939695 - Production process of nucleus-halogenated methylbenzyl alcohol (2011-05-10),

11. 7888399 - Curable composition containing thiol compound (2011-02-15),

12. 7790931 - Process for preparing tetrafluorobenzene carbaldehyde alkyl acetal (2010-09-07),

13. 7504518 - Process for producing blocked isocyanate compound (2009-03-17),

14. 7227036 - Production process of aminomethyl group-containing benzamide compound (2007-06-05),

15. 7112647 - Fluorinated polymer (2006-09-26),

Title: Hideo Miyata: An Innovator in Chemical Synthesis

Introduction: Hideo Miyata is a prolific inventor based in Kawasaki, Japan, known for his contributions to the field of chemical synthesis. With a remarkable portfolio of 23 patents, Miyata has consistently pushed the boundaries of innovation in his field. His work primarily focuses on the development of efficient methods for producing valuable chemical compounds.

Latest Patents: Among his latest innovations, Miyata has developed two significant patents. The first is a "Method of Producing N,N-disubstituted Amide," which outlines a novel reaction between nitriles and alcohols in the presence of specific catalysts. This method is centered on the use of metal salts and offers an efficient approach to synthesizing N,N-disubstituted amides. His second patent, the "Method for Producing Glycine,” presents an improved technique for synthesizing glycine from glycinonitrile, achieving higher yields than traditional methods by utilizing cerium compounds in the reaction process.

Career Highlights: Throughout his career, Hideo Miyata has been associated with reputable companies that value innovation. Notably, he has worked with Showa Denko K.K. and Aji Co., Ltd., where he has contributed significantly to research and development, enhancing the quality and efficiency of chemical production methods.

Collaborations: Collaboration is a key aspect of Miyata's work. He has partnered with talented individuals such as Kohei Morikawa and Haruhiko Ikeda, whose collective efforts have propelled boundary-pushing innovations in their field.

Conclusion: Hideo Miyata's dedication to innovation and his extensive patent portfolio mark him as a pioneering figure in chemical synthesis. His inventions not only highlight his expertise but also contribute to advancements that can have substantial impacts on various applications in the chemical industry. As he continues to innovate, it will be exciting to see what future contributions he will make to the field.

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7 patents (EPO):

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2 patents pending (EPO):

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