Symposia & Program

B-3 New trend of a development of fuel cell materials, devices and its systems

Organizers:

Representative
Dr. Toshiyuki MORI National Institute for Materials Science (NIMS)
Correspondence
Dr. Toshiyuki MORI National Institute for Materials Science (NIMS) [email protected]
Co-Organizers
Dr. Yasunari MAEKAWA National Institutes for Quantum and Radiological Science and Technology (QST)
Dr. Shunya YAMAMOTO National Institutes for Quantum and Radiological Science and Technology (QST)
Prof. Akimitsu ISHIHARA Yokohama National University
Prof. Atsushi MINESHIGE University of Hyogo
Prof. Shinichi HASHIMOTO Tohoku University
Prof. Yumi TANAKA Tokyo University of Science
Prof. Miwa SAITO Kanagawa University
Prof. Takashi MORINAGA National Institute of Technology, Tsuruoka College
Prof. Shigeharu ITO National Institute of Technology, Tsuruoka College

Scope:

In the 21st century, we are compelled to develop science and technology to achieve harmonious coexistence with the global environment. To sustain a vigorous economic society, the design and development of fuel cell materials, fuel cell device, and fuel cell systems is a high priority task in the field of materials science. In our symposium, we would like to provide the opportunity for sharing new ideas and new concepts for the design and development of materials, devices and systems in the fuel cell field. We expect that from the discussion and collaboration, unique scientific concepts and robust R&D take off. Papers for presentation at the conference are solicited in the following areas: fuel cell materials, fuel cell devices, fuel cell system design, and related topics, such as, polymer electrolyte fuel cells, solid oxide fuel cells, alkaline fuel cells, Li-air batteries, catalysts (production hydrogen, purification of environment, and other energy and environmental application).

Topics:

1. Polymer electrolyte fuel cells
2. Solid oxide fuel cells and solid oxide electrolysis cells
3. Alkaline fuel cells
4. Syntesis of energy carrier and its application
5. Li-air batteries
6. electrode, electrolye, hydrogen science
7. theroretical analysis, simulation
8. Characterization