Post-ACMM Symposium:
Advanced multifunctional molecular materials based on dynamic spin
          Date: 13th March (Fri.)
          Place: Kumamoto Univ. (South campus), Kumamoto, JAPAN

SCOPE:
Multifunctional molecular materials are one of the most attractive targets in the field of advanced chemistry, which are directed to the near future generation of materials relevant to electronic devices and information processing systems because of their possible multiple degree of freedom on the function accessibility. For designing the materials, the class of coordination compounds has a great advantage, which is diversely, rationally controllable not only in the viewpoint of assembled structure but also on the intrinsic electronic/magnetic nature. In addition, the electronic and spin states of coordination compounds are flexible, often experience dynamical changes in a reversible reaction; we call them dynamic spin or dynamic electron. Divers types of materials with dynamic spins could be developed; for example, mononuclear or multinuclear, cluster, chain, 2D, MOF, hybrid systems and so on. These compounds could produce unique, interest and applicable physical properties sometimes including long-range correlations, that is magnetism, conductivity, optical properties, dielectricity responsive to dynamic spin tuned by external stimuli. These physical properties could also be associated with the controllable size or shape, charge, polarity, porosity, host-guest interactions of materials and so on. In this session, we would like to focus on the coexisting or synergistically functioning multiple physical properties based on dynamic spin found in coordination compounds and related materials. These studies will be discussed from both sides of fundamental sciences and applications.

Venue:
Faculty of Science 1st・2nd Building C122, South Campus, Kumoamoto Univ.

Program: TBA

Registration: TBA

We are very much looking forward to seeing you in Kumamoto.
Symposium Chair
Shinya Hayami