Masanori Hattori

Title: **Inventor Masanori Hattori and His Contributions to Antistatic Technology**

Introduction

Masanori Hattori is an innovative inventor based in Kyoto, Japan, known for his contributions to the field of antistatic materials. With a total of two patents, Hattori has made significant advancements that improve the performance of molded articles while maintaining their appearance and mechanical strength.

Latest Patents

Hattori's latest patents focus on the development of an antistatic agent and an antistatic resin composition. His antistatic agent is designed to enhance the permanent antistatic properties of molded articles without compromising their aesthetic quality. This agent consists of a block polymer that includes hydrophobic and hydrophilic components, along with an organic fluorine-modified polyolefin. The resin composition utilizes this agent within a thermoplastic matrix, ensuring sufficient antistatic properties are achieved even at lower concentrations than traditional formulations. These innovations promise to deliver thermoplastic molded articles that meet modern performance standards.

Career Highlights

Masanori Hattori is currently employed at Sanyo Chemical Industries, Ltd., where his focus on material enhancement has been instrumental in advancing the capabilities of antistatic products. His research has led to practical applications that serve various industries, demonstrating his commitment to improving material properties.

Collaborations

Throughout his career, Hattori has collaborated with notable colleagues such as Hidetoshi Noda and Eri Takemoto. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas, further enriching his contributions to the field.

Conclusion

Masanori Hattori exemplifies the spirit of innovation in materials science through his development of antistatic agents and resin compositions. His patents not only reflect his technical proficiency but also highlight the importance of advancing technologies that can address industry needs. As the demand for high-performance materials continues to grow, Hattori's work will undoubtedly remain influential in shaping the future of antistatic solution applications.