Symposium D-3
Solid-State Materials and Electrochemical Devices for Next-Generation Energy Technologies
Scope
Ion-conducting materials are key components for various electrochemical devices, and their further development is crucial for achieving carbon neutrality. This symposium will focus on recent advancements in the development of solid-state materials (mixed conductors, solid electrolytes) and electrochemical devices (batteries, fuel cells, chemical sensors) that utilize various ionic species as carriers, such as lithium, sodium, oxygen, fluorine, and hydrogen. It aims to provide a platform for a wide range of researchers to share the latest trends in synthesis, structural analysis, and reaction analysis, fostering opportunities for collaboration and promoting joint research.
Topics
- Materials search and design for ionic conduction
- Ionic conduction mechanisms in electrochemical devices
- Next generation batteries
- First principles calculations and modeling
Symposium Keynote
- Michael De VolderUniversity of Cambridge
- Effect of stack pressure on the lifetime of graphite-NMC811 Li-ion batteries
- Yong Min LeeYonsei University
- Digital Twin Battery Modeling and Simulations: A New Analysis and Design Tool for All-Solid-State Batteries
- Jürgen JanekJustus Liebig University
- Alkali Metal Electrodes in Solid-State Batteries - Microstructure, Stability and Kinetics
Invited Speakers
- Katsuro Hayashi, Kyushu University: Highly Na+-Conductive Na3Zr2(SiO4)2(PO4)-Based Electrolyte Co-sinterable with Hard Carbon Anodes
- Hochun Lee, DGIST: Sulfone-based Crystalline Organic Electrolytes for All-Solid-State Batteries
- Yong-Mook Kang, Korea University: Innovating Oxide-based Solid-State Electrolytes through the Mechanistic Understanding of their Disorders
- Kota Suzuki, Institute of Science Tokyo: Bridging Prediction and Practice: ML-Guided Exploration of Argyrodite-Type Lithium Conductor
- Zachary Tyson Gossage, Tokyo University of Science: New ion sensing concepts for tracking interfacial ion transfer in batteries
- Atsushi Sakuda, Osaka Metropolitan Univ.: Advances in Understanding the Mechanical Properties of Sulfide-Based Solid Electrolytes
- Yasuaki Matsuda, Chiba Tech.: Crystal Structures and Proton Conductivity of Mixed-Cation Phosphates
- Kazuhiro Hikima, Toyohashi University of Technology: Electrochemical Analysis of Li10GeP2S12-type Solid Electrolytes Synthesized by the Solution Method for All-Solid-State Batteries
- Woosuk Cho, Korea Electronics Technology Institute: Architecture Strategies for Cathode in Sulfide-Based All-Solid-State Batteries
- Changhee Lee, Tokyo Univ. Sci.: Strategic Approaches for Enhancing the Practicality of P-Type Na2/3Ni1/3Mn2/3O2 Cathodes in Sodium-ion Batteries
- Kenta Watanabe, Institute of Science Tokyo : Photoelectrochemical Reactions in All-Solid-State Systems toward Solar Energy Conversion and Storage
- Atsushi Inoishi, Kyushu University: High-Capacity Anodes for All-Solid-State Lithium Batteries Using In-Situ formed Solid Electrolyte
- Reona Miyazaki, Nagoya Institute of Technology: Ion Dynamics and Local Structures of NaI-NaBH4-LiI Solid Electrolyte
- Kazuma Gotoh, Japan Advanced Institute of Science and Technology: Real-time Observation of Lithium Storage and Plating on Carbon Electrodes in LIBs Using Operando 7Li Solid-state NMR
- Kohei Aso, Japan Advanced Institute of Science and Technology: Nanometer-scale Mapping of Irreversible Phase Transitions in Epitaxial LiCoO2 Using 4D-STEM Cepstral Analysis
- Daisuke Mori, Mie University: Synthesis and fluorine ionic conductivity of double perovskite-type Cs2RbBiF6-based fluoride
- Atsunori Ikezawa, Tokyo Metropolitan University: Electrochemical Investigation of Li+ Transfer at Solid|Solid Interface
- MASAKI MATSUI, Hokkaido University: Moisture-Assisted Crystal Growth Process of Layered Cathodes
- Naoto Tanibata, Nagoya Institute of Technology: Guidelines for designing high-deformability materials for all-solid-state lithium-ion batteries
Organizers
- Representative
Ryoji Kanno - University of Science Tokyo
- Correspondence
Masaaki Hirayama - University of Science Tokyo
hirayama[at]mac.titech.ac.jp
- Masashi Ohkubo
- Waseda univ.
- Saneyuki Ohno
- Tohoku univ.
- Jürgen Janek
- Justus-Liebig-Universität Gießen
- Michael De Volder
- University of Cambridge
- Yong Min LEE
- Yonsei University