Symposium D-1
Ion Jamology: Materials Design Transformation by Understanding Non-Equilibrium and Collective Ionic Flow
Scope
Ion Jamology focuses on understanding the non-equilibrium and collective motion of ions in materials. This research area brings together experts in materials science and mathematics to investigate the fundamental mechanism of ionic flow in batteries and catalysts, and to establish design principles for controlling these phenomena. We also aim to advance the mathematical sciences by addressing the challenges posed by modeling and theoretical studies of the materials. Our goal is to advance fundamental sciences such as solid-state ionics and to develop highly efficient energy/mass conversion technologies such as batteries and catalysts, thereby contributing to the development of a carbon-neutral society. Contributions that combine theoretical and experimental approaches are particularly welcome. The session will consist of oral presentations with invited speakers. Poster presentations will also be accepted. Session topics include (1) electrode materials, (2) electrolyte materials, (3) homo and hetero interfaces, (4) catalysts, (5) advanced measurements, (6) mathematical modeling and materials simulations.
Topics
- electrode materials
- electrolyte materials
- homo and hetero interfaces
- catalysts
- advanced measurements
- mathematical modelings and materials simulations
Invited Speakers
- Masaaki Kitano, Institute of Science Tokyo: Contribution of Ion dynamics of Solid Catalyst in ammonia synthesis
- Xabier Martinez de Irujo Labalde, Institute of Inorganic and Analytical Chemistry, University of Münster: Factors governing ion-transport in halide-based Na+ solid conductors
- Naoaki Yabuuchi, Yokohama National University: Defect-engineered Lithium Insertion Materials for Practical Li-ion Battery Applications
- Eun Seon Cho, Korea Advanced Institute of Science and Technology (KAIST): Asymmetric Ion Transport in Covalent Organic Framework for Efficient Osmotic Energy Harvesting
- Yasunobu Ando, Institute of Science Tokyo: Mathematical and simulation analysis towards establishing ion jamology
- Genki Kobayashi, RIKEN: Creation of Novel Materials and Functions based on Ion Jamology
Organizers
- Representative
Taro Hitosugi - The University of Tokyo
- Correspondence
Yasunobu Ando - Institute of Science Tokyo
ando.y.am[at]m.titech.ac.jp
- Genki Kobayashi
- RIKEN
- Takashi Nakamura
- Nagoya University
- Masashi Okubo
- Waseda University
- Masaaki Kitano
- Institute of Science Tokyo
- Izumi Umegaki
- High Energy Accelerator Research Organization
- John Irvine
- University of St. Andrews
- Wolfgang Zeier
- University of Muenster
- Eun Seon Cho
- KAIST
