Symposium
- The State of the Art Metal Cluster Chemistry: from Synthetic Methodology to New Functionality
- Toward an Integrated Biometal Chemistry: Emerging Approaches to Rigorous Comprehension of Biological Systems
- New Aspects in Two-dimensional Materials -Focusing on Fusion with Coordination Chemistry-
- On-demand Photofunctions in Coordination Chemistry from Mysterious Luminescence to Solar-energy Conversion
- Capture and Activation of Small Molecules in Coordination Chemistry and Bioinorganic Chemistry
- Coordination chemistry from a view point of solution ~ Essential roles of solution in metal complex solution
The State of the Art Metal Cluster Chemistry: from Synthetic Methodology to New Functionality
Organizer
Nobuto Yoshinari, Graduate School of Science, Osaka University
Yuma Morimoto, Graduate School of Engineering, Osaka University
Daisuke Tanaka, Graduate School of Science, Osaka University
Program (N101:Symposium S1)
16:40-16:45
Opening Remarks: Nobuto YOSHINARI (Osaka Univ.)
Chair: Nobuto YOSHINARI (Osaka Univ.)
(S1-01) 16:45-17:15
All-inorganic Coordination Chemistry of Cyclic-polyoxovanadate Ligands
(Kanazawa Univ.) Yoshihito HAYASHI
(S1-02) 17:15-17:45
Organo-Metallic Sulfur Clusters for Nitrogen Activation
(Nagoya Univ., JST PRESTO) Yasuhiro OHKI
Chair: Yuma MORIMOTO (Osaka Univ.)
(S1-03) 17:45-18:15
Chemistry of Multimetallic Polyhydride Clusters: Activation and Transformation of Dinitrogen and Benzene
(RIKEN) Takanori SHIMA
Chair: Daisuke TANAKA (Kwansei Univ.)
(S1-04) 18:15-18:45
Synthetic Methodology for Heterometallic One-Dimensional Complexes with Metal-Metal Bonds
(Gifu Univ.) Kazuhiro UEMURA
(S1-05) 18:45-19:15
Aggregation-Controlled Emission from Liquid-Crystalline Gold Complexes
(Ritsumeikan Univ.) Osamu TSUTSUMI
19:15-
Closing RemarksAbstract
It is well known that metal clusters are in possession of both solution dispersibility and high functionality, and that their functions can be controlled by molecular design. Therefore, they are drawing attention as advanced materials that can replace the bulk inorganic materials. However, refined synthesis of metal clusters that contain multiple metal centers is generally not an easy process. This constitutes the bottleneck in the development of the relevant research area.
This symposium invites researchers who handle metal clusters in a way of coordination chemistry, setting their targets at catalysts, liquid crystals, models of active site of metalloenzymes, conductive materials, and molecular inorganic materials. They will lecture on the results of frontline research, hot topics of their respective research areas, and unexplored synthetic targets. The symposium focuses on the synthetic methodology of metal clusters defined by complicated structure and functions. It aims to provide an opportunity to inspire students and young researchers on the frontline of the synthesis of coordination materials.
