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Katsuhiro Maeda is conducting research on the synthesis and applications of dynamic helical polymers. His objective is to develop novel chiral π-conjugated (macro)molecular systems to detect the chirality of target molecules as changes in the absorption, luminescence, visible color, or electrical properties of the molecules.
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Division of Nano Life Science, Graduate School of Frontier Science Initiative Division of Material Chemistry, Graduate School of Natural Science and Technology Division of Nano Life Science, Graduate School of Frontier Science Initiative Division of Material Chemistry, Graduate School of Natural Science and Technology School of Chemistry, College o...
【Academic background(Doctoral/Master's Degree)】 Nagoya University Doctor Graduate School, Division of Engineering Department of Applied Chemistry 199803 Completed 【Academic background(Bachelor's Degree)】 Nagoya University Department of Applied Chemistry 199303 【Degree】 Doctor of Engineering
Assiatant Professor, School of Engineering, Nagoya University School of Engineering Assiatant Professor(1998/04/01-2002/04/30) Associate Professor, School of Engineering, Nagoya University School of Engineering Associate Professor(2002/05/01-2007/01/31) Designated Associate Professor, Institute for Advanced Research, Nagoya University Institute for...
The American Chemical Society ○Thomson Reuters Research Front Award 2012(2012/02/21) ○The Excellent Presentation Award for Young Scientists(2005/07) ○Award for Encouragement of Research in Polymer Science(2002/05/25)
Oct 1, 2017 · ORCID record for Katsuhiro Maeda. ORCID provides an identifier for individuals to use with their name as they engage in research, scholarship, and innovation activities.
Principal Investigator: Katsuhiro Maeda | ResearchGate, the professional network for scientists
Jan 12, 2022 · We report the first example of solvent-dependent helix inversion in poly (diphenylacetylene) (PDPA) derivatives.
Jun 3, 2000 · Katsuhiro Maeda, Kazuhide Morino, Yoshio Okamoto, Takahiro Sato, Eiji Yashima. Mechanism of Helix Induction on a Stereoregular Poly((4-carboxyphenyl)acetylene) with Chiral Amines and Memory of the Macromolecular Helicity Assisted by Interaction with Achiral Amines.
The ultra-fast helix induction and subsequent static helicity memory in a poly (biphenylylacetylene) were achieved using a catalytic amount of nonracemic ammonium salts with non-coordinating tetrakis [3,5-bis (trifluoromethyl)phenyl]borate as a counter anion.
