Company Filing History:
3 out of 6 
2 out of 12 
1 out of 8 Years Active: 2011-2015
Title: Masaaki Mike: Innovator in Sterilization Technology
Introduction
Masaaki Mike is a notable inventor based in Wakayama, Japan. He has made significant contributions to the field of sterilization technology, holding a total of 5 patents. His work focuses on enhancing the reliability and effectiveness of sterilization methods, particularly for medical instruments.
Latest Patents
One of Masaaki Mike's latest patents is a sterilization method that utilizes nitrogen dioxide, which exhibits an increased sterilizing effect compared to other sterilant gases. This method is designed for sterilizing items that require high reliability, such as medical instruments. The process involves humidifying the inside of a sterilizing chamber and maintaining a concentration of nitrogen dioxide between 9 to 100 mg/L by using a high concentration gas of 5,000 ppm or above. Another significant patent is a high concentration nitrogen dioxide generating system. This system includes a circulating path that connects a chamber, a plasma generator, and a circulating means. It generates nitrogen dioxide by circulating a gas mixture of nitrogen and oxygen, allowing for the simple and selective preparation of high concentrations of nitrogen dioxide, which is essential for effective sterilization processes.
Career Highlights
Masaaki Mike has worked with several companies throughout his career, including Saian Corporation and Noxilizer, Inc. His experience in these organizations has contributed to his expertise in sterilization technologies and innovations.
Collaborations
Masaaki Mike has collaborated with notable individuals in his field, including Ryuichi Iwasaki and Shigeru Masuda. These collaborations have further enhanced his work and contributions to sterilization technology.
Conclusion
Masaaki Mike is a prominent inventor whose work in sterilization technology has made a significant impact on the medical field. His innovative methods and systems continue to advance the reliability and effectiveness of sterilization processes.