Company Filing History:
Years Active: 2022-2025
Title: Mayumi Iwakuni: Innovator in Titanium Phosphate Technologies
Introduction
Mayumi Iwakuni is a prominent inventor based in Kiyosu, Japan. She has made significant contributions to the field of materials science, particularly in the development of titanium phosphate powders and their applications in cosmetics. With a total of three patents to her name, Iwakuni's work exemplifies innovation and practical application in modern technology.
Latest Patents
Iwakuni's latest patents include a method for producing titanium phosphate powder and a white pigment for cosmetics. The titanium phosphate powder invention features plate-shaped crystalline particles with an average thickness ranging from 0.01 μm to less than 0.10 μm. The aspect ratio of these particles is five or more, which enhances their utility in various applications. The production method utilizes a hydrothermal synthesis approach, employing a mixture of titanium sulfate and phosphoric acid as raw materials. Additionally, her white pigment for cosmetics is designed to provide a coating film that is less sticky and offers improved long-lasting properties. This pigment incorporates titanium phosphate powder, with a specific oil absorption value to specific surface area ratio of 2.0 or more.
Career Highlights
Mayumi Iwakuni is currently associated with Fujimi Incorporated, where she continues to push the boundaries of innovation in her field. Her work has not only advanced the understanding of titanium phosphate materials but has also opened new avenues for their application in consumer products.
Collaborations
Iwakuni collaborates with notable colleagues, including Keiji Ashitaka and Naoya Miwa, who contribute to her research and development efforts. Their combined expertise fosters a dynamic environment for innovation and problem-solving.
Conclusion
Mayumi Iwakuni stands out as a leading inventor in the realm of titanium phosphate technologies. Her contributions have significant implications for both industrial applications and consumer products, particularly in the cosmetics industry. Her ongoing work continues to inspire advancements in material science.