Company Filing History:
Years Active: 2014
Title: **Sumiko Kawabata: Innovator in Advanced Adsorbent Technologies**
Introduction
Sumiko Kawabata, based in Ibaraki, Japan, is an accomplished inventor known for her contribution to the field of adsorbents. With a patent to her name, she has made significant strides in developing materials that enhance air quality and environmental conditions.
Latest Patents
Kawabata holds a patent for an "Aluminum silicate complex and high-performance adsorbent comprising the same." This innovative adsorbent exhibits superior adsorption properties, particularly useful as a dehumidifying agent in desiccant air conditioning systems. Her invention demonstrates high efficiency at mid and high humidity ranges, making it a valuable solution for various gas adsorption applications. The complex, consisting of a layered low-crystalline clay mineral and amorphous aluminum silicate, provides exceptional water vapor adsorption performance of 45 wt % or more at 60% relative humidity. It also offers impressive carbon dioxide absorption/desorption capabilities, making it efficient for gases like ammonia and formaldehyde.
Career Highlights
Kawabata is associated with the National Institute of Advanced Industrial Science and Technology, where she engages in pioneering research on advanced materials. Her work is recognized for its impact on enhancing energy efficiency and improving air quality through innovative technologies.
Collaborations
Throughout her career, Kawabata has collaborated with notable peers such as Masaya Suzuki and Katsuhiro Tsukimura. These partnerships have fostered a rich exchange of ideas and expertise, further contributing to advancements in their respective fields.
Conclusion
Sumiko Kawabata's work exemplifies the importance of innovation in addressing contemporary environmental challenges. Her patented technology not only advances the science of adsorbents but also contributes positively to the sustainability of air conditioning systems. As research continues, her contributions pave the way for future developments in material science and environmental applications.