Company Filing History:
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Years Active: 2008-2015
Title: Masahiro Rikukawa - Innovator in Biocompatible Materials
Introduction
Masahiro Rikukawa, a distinguished inventor based in Yokohama, Japan, has made significant strides in the field of biocompatible materials. With three patents to his name, Rikukawa's innovative work primarily focuses on creating hybrid materials that can benefit medical applications.
Latest Patents
Rikukawa's latest patents include groundbreaking developments in biocompatible ceramic-polymer hybrids. One of his inventive materials is a hydroxyapatite ceramic hybrid, which integrates a hydroxyapatite ceramic structure with biodegradable polymers, such as poly L-lactic acid. This hybrid material is designed with pores that allow for the inclusion of the polymer within the ceramic structure, enhancing its bioactivity and compatibility for medical uses.
Another notable invention of his is a calcium phosphate porous body formed by fibrous calcium phosphates. This material features a unique configuration of first pores and larger spherical second pores, facilitating improved interactions in biological environments. The methods for preparing these advanced materials involve sophisticated processes, including preparing slurries, filtering, molding, compacting, and firing, showcasing Rikukawa's technical expertise in material sciences.
Career Highlights
Throughout his career, Rikukawa has worked with reputable institutions, including Showa Ika Kogyo Co., Ltd. and Meiji University. His involvement in these organizations has not only propelled his research but also contributed to advancements in the field of biocompatible materials.
Collaborations
Masahiro Rikukawa has collaborated with skilled professionals such as Mamoru Aizawa and Yusuke Shigemitsu. These collaborations have fostered a productive environment for innovation, allowing the team to explore new horizons in material development.
Conclusion
Masahiro Rikukawa stands out as an innovative inventor whose work on biocompatible ceramic-polymer hybrids holds great promise for future medical applications. His dedication to enhancing material properties through inventive techniques continues to pave the way for advancements in biocompatibility and effective medical solutions. The impact of his research will likely resonate within the scientific community and beyond as he continues to develop pioneering materials.