1st Edition
Conjugated Objects Developments, Synthesis, and Applications
Conjugated Objects: Development, Synthesis, and Application contains 17 chapters written by young researchers and contains current trends in pi-conjugated systems for application in broad research areas such as design of unique pi-conjugation, catalysts, self-assembly, charge transfer complexes, liquid crystals, supramolecules, and nanostructures by using conjugated small and/or macro-objects organically or electrochemically. The book can be used as a textbook of basic learning by undergraduate and graduate students of chemistry, electrical and electronics engineering, and materials science and by supramolecular researchers in nanotechnology and biotechnology.
Unique Electronic and Stereochemical Properties of Salen Complexes
Takuya Kurahashi
Fused Polycyclic Aromatic Compounds: [n]acenes, [n]helicenes, and Their Heterocyclic Analogs
Koji Nakano
Poly(ortho-phenylene)s and their derivatives: synthesis, conformation, and physical properties
Koichiro Mikami
Electrochemistry of Conjugated Polymers: Synthesis, Properties and Reactions
Shinsuke Inagi
Chain-Growth Polymerization for the Synthesis of π-Conjugated Polymers
Yoshihiro Ohta and Tsutomu Yokozawa
Synthesis of Polythiophene-based Architectural Macromolecules: Recent Progress in Controlled Polymerization
Tomoya Higashihara
Through-space conjugated compounds
Yasuhiro Morisaki
Synthesis, Structures, and Functions of Helical π-Conjugated Polymers
Hiromitsu Sogawa, Kazuko Nakazono, and Toshikazu Takata
Control of Self-Assembling Behavior of Organic Polymers via Charge-Transfer (CT) Interaction of π-Conjugated Planes
Kenta Kokado
Liquid-Crystalline Materials in Mesoscopic Scale
Tomomichi Itoh
Bulk Supramolecular Assemblies Constructed from Macrocyclic Compounds
Tomoki Ogoshi, Takahiro Kakuta, and Tada-aki Yamagishi
Precision Spatial Arrangement of Chromophores using Cyclic Aromatic Triamide Scaffold
Koji Takagi and Ryohei Yamakado
Supramolecular Assemblies of π-Electronic Charged Species
Yohei Haketa, Ryohei Yamakado, and Hiromistu Maeda
Theoretical Studies and Emerging Trends of Organic Charge Transfer (CT) Complexes
Atsushi Nagai and Daniel J. Siegwart
Construction of Conjugation System with Heteroatoms in Polymer Main Chains
Kazuo Tanaka and Yoshiki Chujo
Nanoscale Carbon Materials: Carbon Nanotubes
Takahiro Maruyama
Conjugated Polymers Nanostructures: Synthesis and Applications
Utpal Rana, Sanjoy Mondal and Sudip Malk
Biography
Atsushi Nagai obtained his PhD in polymerization mechanisms and polymerizable monomer structure design from Yamagata University, Japan, in 2005. The activities pursued during his postdoctoral fellowship at Kyoto University, Japan, gave him the idea of teaching how fundamental scientific discoveries can translate into actual functional materials such as conjugated polymers. In 2010, Dr. Nagai joined the Institute For Molecular Science (IMS), Japan, as assistant professor and co-taught many international students and postdoctors at the Graduate University for Advanced Studies. He was also responsible for the design and concept of the project "Chemical, Optical Chemical, and Polymer Synthetic." Since 2014, he is a visiting assistant professor at the University of Texas, Southwestern Medical Center, USA. Since 2015, he is the editor of International Journal of Global Advanced Materials and Nanotechnology and SM Journal of Biomedical Engineering.
Koji Takagi is an associate professor at the Nagoya Institute of Technology, Japan. He received his PhD in 1998 from the Tokyo Institute of Technology, Japan. He developed a novel living coordination polymerization of allene derivatives by the -allylnickel catalyst and developed many experimental skills, not only for polymerization but also for organic synthesis. He started his academic career at the Nagoya Institute of Technology and launched several research themes, including controlled radical polymerization by utilizing chalcogen compounds, the synthesis of hyperbranched polymers based on triazine chemistry, and the development of -conjugated oligomeric and polymeric materials. Dr. Takagi’s research focuses on the precision spatial arrangement of chromophores using well-defined scaffolds, the controlled synthesis of 2D polythiophene derivatives, and the manipulation of electron donor–acceptor interaction in fused -conjugated imidazolium compounds.