Symposia & Program

N : Self-Assembled Materials and Their Functions XVI

Organizers:

Representative
Correspondence
Co-Organizers
Prof. Dr. Mizuo Maeda RIKEN
Prof. Yukio Nagasaki Tukuba University
Prof. Madoka Takai University of Tokyo
Prof. Atsushi Takahara Kyushu University
Prof. Akihiko Kikuchi Tokyo University of Science
Prof. Yoshiko Miura Kyushu University
Prof. Takeshi Serizawa Tokyo Insitute of Technology
Prof. Yasuhiko Iwasaki Kansai University
Prof. Yu Hoshino Kyushu University
Prof. Syuji Fujii Osaka Institute of Technology
Prof. Daisuke Suzuki Shinshu University
Prof. Takuya Yamamoto Hokkaido University
Prof. Shin-ichi Yusa University of Hyogo
Prof. Keitaro Yoshimoto The University of Tokyo
Prof. Akihiro Kishimura Kyushu University
Prof. kazuaki Matsumura Japan Advanced Institute of Science and Technology
Dr. Hironobu Takahashi Tokyo Women's Medical University
Prof. Hirobumi Shibata Chiba Institute of Technology
Prof. Tadashi Nakaji University of Toyama
Prof. Toshiki Sawada Tokyo Institute of Technology
Dr. Ryo Ishihara Juntendo University
Dr. Yukiya Kitayama Osaka Prefecture University
Prof. Dr. Jun Nakanishi National Institute for Materials Science (NIMS)
Prof. Masao Kamimura Tokyo University of Science
Dr. Shunsuke Tomita National Institute of Advanced Industrial Science and Technology
Dr. Toru Yoshitomi National Institute for Materials Science (NIMS)

Scope:

Self-organization of functional organic/inorganic molecules, macromolecules, and biomolecules has become an indispensable research field, and further continuous development is highly expected. Programmed organization architects precise structures at nano-, meso-, and hierarchical levels in a predictable way without excess energies and tedious processing. Noncovalent interactions such as hydrogen bonding, electrostatic, -, and van der Waals interactions play important roles in not only forming stable organized structures, but also exhibiting autonomous motions and self-healing behavior like a living system. The resulting structures direct various unique, novel, and exotic functions in optics, electronics, nano-fabrications, catalysts, chemicals as well as biological applications. Thus self-organized materials surely lead to frontier materials sciences and nanotechnologies. A variety of research fields based on “self-assembly” including following topics; i) organized molecular films (self-assembled ultrathin films, Langmuir-Blodgett films, multilayers etc.), ii) biomineralization, iii) supramolecular materials and organization of organic- and inorganic molecules, macromolecules, block copolymers, and biomolecules, iv) gels and liquid crystals, v) nano- and meso-porous materials, as well as vi) organic-inorganic nanocomposite materials is focused in this symposium. Moreover, various optical, electronic, chemical, and biological functions of above listed materials, as well as forefront nano-fabrication techniques related to self-organization processes will be highlighted. The session organizers would like to further cultivate this research field by intense discussion between frontier researchers and hopeful students who have activities in a variety of academic societies.

Topics:

1. Organized Molecular Films
2. Biomineralization
3. Supramolecular Assemblies of Organic Molecules, Inorganic Molecules, Macromolecules, Block Copolymers, and Biomolecules
4. Gels and Liquid Crystals
5. Nano- and Meso-Porous Materials
6. Organic/Inorganic Nanocomposite Materials