Graduate School of Engineering
Associate Professor Yoshihiro Oka
I am developing a water-based pesticide that uses only water as an ingredient and which is safe and worry-free for both humans and the environment.
In recent years, there have been problems such as the emergence of pesticide tolerance disease and effects of chemical pesticides on human health, so there has been a demand for the development of new pesticides.
Cavitation plasma technologies can be used to create disinfectant water that is highly effective against plant pathogens.
I believe that cavitation plasma disinfectant water can greatly contribute to the realization of sustainable farming that is not dependent on chemical pesticides.
Graduate School of Engineering
Professor Syogo Ito
For such a goal, a highly durable perovskites solar cell was completed. (That is what I am holding in my hands in the picture.)
I am also doing research and development into hydrogen fuel cells with ultra-durable catalyzers and platinum-free catalyzers, in order to use that energy. (A hydrogen cabinet is pictured on the right side of the picture. Pictured on the left side is an air tank.) We will keep on creating amazing developments.
Institute for Policy Analysis and Social Innovation
Lecturer Atsushi Osawa
Realizing sustainable societies requires that we learn from past experiences.
If we look back at the history of economic development in all countries and regions, we see that the course of industrialization has involved problems with pollution.
Currently, I am working on extracting lessons from history on the most desirable methods of economic development and business growth by ascertaining specific measures taken by local societies for problems that are difficult to solve with market solutions, such as through compensation. The focus is on the smoke pollution that had been generated in the Kazuno region in Akita Prefecture.
Graduate School of Engineering
Associate Professor Kensuke Kanda
I am developing elements for effectively utilizing minute energy that can be found in the vibrations, wind, and rain in our daily lives.
The goal is to use power source elements in IoT sensors and the like in order to realize autonomous systems that contain no batteries and are environmentally friendly.
With an outlook on future sensor integration, I am developing MEMS (micro-electromechanical systems) using semiconductor manufacturing processes.
Graduate School of Engineering
Associate Professor Takeshi Kakibe
Inedible plant biomass such as cellulose and lignin are polymers having superior characteristics to the biomass found in food products, so there are expectations that this biomass can be used as materials for plastics in place of fossil resources.
We are constructing a synthesis process that aims to convert these types of plant biomass to functional materials using derivatization and to achieve low-energy-cost synthesis.
Furthermore, we aim to be able to design a material that has a low environmental footprint by adding functionality such as biodegradability to yielded biomass derivatives.
Graduate School of Landscape Design and Management
Professor Satoshi Yamamoto
Nature of initiatives: Vegetation is changing and biodiversity is disappearing due to changes in occupations in mountains near villages.
I conduct enlightenment activities through garden creation events and the like in order to increase awareness of this situation and awareness of the preservation of biodiversity.
At the Awaji Hanahaku 20th Anniversary Flower Green Fair, I presented, in collaboration with students and artisans, a garden using bamboo from an abandoned bamboo forest in the region, under the theme of “Bamboo Life Garden Connected with Bamboo”‘.
Other goal initiatives can be found in the list here.