Company Filing History:
Years Active: 1998-1999
Title: Shiori Yamazaki: Innovator in Environmental Measurement Technologies
Introduction
Shiori Yamazaki is a prominent inventor based in Kawasaki, Japan. She has made significant contributions to the field of environmental measurement technologies. With a total of 3 patents to her name, her work focuses on innovative methods and apparatuses for accurately measuring environmental gases.
Latest Patents
Yamazaki's latest patents include a "Simplified Environmental Atmosphere Measuring Method" and a "Simplified Environmental Atmosphere Measuring Apparatus." These inventions allow for the analysis of adsorbed gases after metals, ceramics, or metallic salts have been exposed to environmental conditions for a predetermined period. The technology enables accurate measurement of specific gas concentrations over extended periods using a cost-effective and compact apparatus. Notably, porous metals or ceramics, such as transition metal oxides, exhibit excellent selective adsorption properties for nitrogen oxides (NO.sub.x). Additionally, rare earth element oxides are effective for carbon dioxide (CO.sub.2), while specific chlorides like copper chloride and silver chloride are proficient in adsorbing sulfur dioxide (SO.sub.2). The patents also describe a test kit designed to accommodate these test pieces, along with a protective case, an umbrella, and a forced air blowing unit for practical use.
Career Highlights
Shiori Yamazaki is currently employed at Fujitsu Corporation, where she continues to develop her innovative ideas. Her work has garnered attention for its potential applications in environmental monitoring and pollution control.
Collaborations
Yamazaki collaborates with notable colleagues, including Eiichi Nakajima and Yasuo Udoh, who contribute to her research and development efforts.
Conclusion
Shiori Yamazaki's contributions to environmental measurement technologies highlight her role as a leading inventor in her field. Her innovative patents reflect her commitment to advancing methods for accurately assessing environmental conditions.