• We have developed a new catalyst for fuel cells and metal-air batteries with using metal azaphthalocyanine unimolecular layer (AZUL) adsorbed on carbon materials. We applied it to variety of applications in the field of energy conversion and next generation energy devices.

Industries relating with energy and mobilities.

• Acoustic oscillations of a gas column in narrow flow channels can lead to various thermal phenomena such as production and amplification of acoustic power from heat and generation of low temperatures. We aim at understanding these thermoacoustic phenomena from experimental point of view, and developing heat engines that can operate without any moving parts like solid pistons.

Acoustic prime mover can use various heat sources like industrial waste heat and sunlight. Acoustic cooler is a Helium-gas based heat pump that needs no Freon gases as a coolant.

An indispensable function for decarbonized driving is energy data analysis, an energy car navigation system with both high spatial and temporal resolution. Higher spatial resolution facilitates the recharging and discharging of electric cars and inter-regional energy exchange. With the addition of up-to-the-minute energy data with high temporal resolution, it is possible to rationally and optimally combine the fluctuating output of renewable energy with the consumers. Data analysis, system design, and operation will lead to a carbon-neutral society.

Japan's first regional energy supply and demand database has been developed, allowing for detailed design of sustainable and resilient regional energy infrastructure layout and operation based on analysis of the current energy status of cities, towns, and villages nationwide.

• Research experience as a Fulbright Scholar in the U.S. and familiarity with examples of social implementation in Europe.
• Data-driven innovation research approach based on a vast regional energy supply and demand database.
• Emphasis on regional fieldwork as a social entrepreneur solving social issues.

Putting Theory into Practice. Helping to build sustainable energy systems for new community development. Including the background of the local community, listening to the opinions of the residents, and guiding them to discussions that are relevant to today's issues. Thinking globally and acting within the community.

• The concept of LCS (low carbon society) is a unique approach having multi-dimensional considerations such as social, economic and environmental dimensions. The LCS aims at an extensive restructuring of worldwide energy supply/demand network system by not only replacing the conventional parts with the new ones, but also integrating all the necessary components and designing absolutely different energy networks. An energy-economic model is a tool for decision making for a variety of purposes, such as energy security planning, climate policy analysis, and technology innovation assessment.

Provide local governments, participating companies, and consultants with databases related to local energy supply and demand to support data analysis and scenario design in planning smart cities and decarbonized regions.

An indispensable function for decarbonized driving is energy data analysis, an energy car navigation system with both high spatial and temporal resolution. Higher spatial resolution facilitates the recharging and discharging of electric cars and inter-regional energy exchange. With the addition of up-to-the-minute energy data with high temporal resolution, it is possible to rationally and optimally combine the fluctuating output of renewable energy with the consumers. Data analysis, system design, and operation will lead to a carbon-neutral society.

Japan's first regional energy supply and demand database has been developed, allowing for detailed design of sustainable and resilient regional energy infrastructure layout and operation based on analysis of the current energy status of cities, towns, and villages nationwide.

• Research experience as a Fulbright Scholar in the U.S. and familiarity with examples of social implementation in Europe.
• Data-driven innovation research approach based on a vast regional energy supply and demand database.
• Emphasis on regional fieldwork as a social entrepreneur solving social issues.

Putting Theory into Practice. Helping to build sustainable energy systems for new community development. Including the background of the local community, listening to the opinions of the residents, and guiding them to discussions that are relevant to today's issues. Thinking globally and acting within the community.

• Combustion is a complex phenomenon composed of multi-dimensional dynamics of temperature, concentration, velocity, and chemical reactions. Advanced combustion technologies are essential for solving the environmental and energy issues. Our laboratory has a high-pressure combustion test facility which is a unique experimental facility in the world. Research projects have originality, especially in the field of high-pressure combustion and laser diagnostics, and focus on not only aerospace engineering and energy engineering including new fuel technology but also atomization technology and safety operations of chemical plants mostly operated at high pressure.

Potential collaborations are in the research fields of aerospace propulsions, automobile engines, power generations and chemical plants, in terms of development of gas turbine combustors for various fuels, generation and control of fuel atomizers, laser diagnostics of combustion and safety design of chemical reactors.