Novel Concepts of Electronic Materials Inspired from Complementary and Competing Fields
Scope
So far electronic materials have been designed and developed based on alreadly-estabilished guiding priciples, e.g., seeking morphotoropic phase boundaries in perovskite-type solid solutions for ferroelectric materials and extending chemical composition to multi-coponent comounds in zinc blend-based crystals for semiconductors, While, these guiding priciples have rapidly become obsolete recently. These materials design guidlines in the different fields are being fused and producenovel types of high-performance electronic materials as seen in perovskite-type photovoltaics and light-emitting materials as well as the extention of inorganic semiconductor materials to mixed anion cocmpounds of alkali-earth light metals and early transition metals such as inorganic electride, ZrOS, and topological electronic materials. This symposium will form a platform to share and exchange such novel ideas to develop new electronic funcitonal materials from non-conventional concepts in regard to crystal structures, electronic structures, consitituent elements etc, and covers from materials design concept, their synthesis, and to applications.
Topics
- Semiconductor
- Ferro/Dielectrics
- Novel conept of materials design
- Non-traditional crystal/electronic structures
- Synethesis
- Application
Invited Speakers
- Norifumi FUJIMURA, Osaka Prefecture Univ. Novel Applications of ferroelectric and semiconducting perovskite oxide films
- Hiroshi FUNAKUBO, Tokyo Tech Phase stability and property control of ferroelectric HfO2 films
- Masao NAKAMURA, RIKEN Shift current: a new perspective on ferroelectric photovoltaics
- Kota HANZAWA, Tokyo Tech Materials Design of Functional Semiconductors with Light Emission and Carrier Dopabilities: Ternary Perovskite Sulfides AEHfS3 (AE=Sr & Ba)
Organizers
- Toshio KAMIYA Tokyo Institute of Technology
Correspondence
- Toshio KAMIYA, Tokyo Institute of Technology Email: kamiya.t.aa@m.titech.ac.jp