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Years Active: 2013-2017
Title: Chiaki Ogino: Innovator in Cellulose Processing and Radiotherapy
Introduction
Chiaki Ogino is a prominent inventor based in Kobe, Japan. She has made significant contributions to the fields of cellulose processing and radiotherapy. With a total of 2 patents, her work showcases innovative methods that have the potential to impact various industries.
Latest Patents
One of her latest patents is a method for producing a useful substance from cellulose-containing material. This invention provides an efficient way to produce useful substances from cellulose without the need for cellulase preparation. The process involves bringing the cellulose-containing material into contact with an ionic liquid, allowing it to permeate the material. This method enables simultaneous saccharification and fermentation of the cellulose by a cellulase-producing microorganism in the presence of the ionic liquid.
Another notable patent is a radiation therapy agent that includes a composite particle. This agent is created by binding a molecule that specifically recognizes a target to a substrate particle made of titanium peroxide. The agent generates reactive oxygen when irradiated, enhancing the effects of radiotherapy while minimizing side effects on the living body. This innovative approach allows for more efficient targeting of the intended area.
Career Highlights
Chiaki Ogino has worked with esteemed institutions such as Kobe University and Toyota Chuo Kenkyusho. Her experience in these organizations has contributed to her development as a leading inventor in her field.
Collaborations
Throughout her career, Chiaki has collaborated with notable colleagues, including Akihiko Kondo and Tsutomu Tanaka. These partnerships have fostered a creative environment that has led to groundbreaking innovations.
Conclusion
Chiaki Ogino's contributions to cellulose processing and radiotherapy exemplify her innovative spirit and dedication to advancing technology. Her patents reflect a commitment to improving efficiency and effectiveness in these critical areas.