| 1. |
Yoichi Sasaki, Nobuhiro Yanai, Nobuo Kimizuka, Emerging Strategies to Reduce Transmission and Thermalizatiom Losses in Solar Cells, Springer, 29-48, 2021.04. |
| 2. |
Pengfei Duan, Nobuhiro Yanai, Nobuo Kimizuka, Functional Organic Liquids, Wiley, 10.1002/9783527804948.ch7, 101-126, 2019.03. |
| 3. |
@Nobuo Kimizuka, "Supramolecular Amphiphiles Based on Multiple Hydrogen Bonds” in Supramolecular Amphiphiles, Ed by Xi Zhang, Monographs in Supramolecular Chemistry, Royal Society of Chemistry, 10.1039/9781788010566-00047, Chapter 3, pp. 47-70 (2017), 2018.06. |
| 4. |
Nobuo Kimizuka, Self-assembly of supramolecular nanofibers, 10.1007/12_2008_170, 219, 1-26, 2008, The development of functional nanofibers via self-assembly is an area of growing interest. Whereas self-assembly has been successful in creating nanostructures, the fabrication of hierarchical architectures from multiple functional components and the development of synergistic functions are emerging as challenging issues. In this chapter, various self-assembly approaches that are used to construct nanofibers are summarized. Self-assembly of amphiphilic supermolecules provides a key strategy to hierarchically fabricate multicomponent architectures. Amphiphilic pairs of nanofiber-forming molecules can be screened from a wide range of functional molecules, including biomolecules. As examples of nanofibers whose functions are dynamically controlled based on self-assembly, lipophilic one-dimensional metal complexes and their unique characteristics are introduced.. |
| 5. |
Nobuo Kimizuka, Takuya Nakashima, Molecular Self-assembly in Ionic Liquids, John Wiley and Sons, 10.1002/9781118003350.ch11, 169-182, 2011.03. |
| 6. |
君塚 信夫, Electrochemical aspects of ionic liqiuds-second edition, , , WILEY, pp.169-182, 2011.05, Molecular Self-Assembly in Ionic Liquids.  |
