Graduate School of Science and Engineering Applied Chemistry
- Course Outline
- Electrochemical Laboratory
- Laboratory of Physical Chemistry
- Polymer Chemistry Laboratory
- Laboratory of Inorganic Synthetic Chemistry
- Functional Organic Chemistry Laboratory
- Bioinorganic and Chemical Biology Laboratory
- Laboratory of Biofunctional Chemistry
- Powder Technology Laboratory
- Transport Phenomena Laboratory
- Biochemical Engineering Laboratory
- Separation and Detection Chemistry Laboratory (Analytical Chemistry Laboratory)
- Molecular Chemical Engineering
- Material System Laboratory
- Biosensing Laboratory
Laboratory of Biofunctional Chemistry
Website of the Laboratory 【In Japanese】Applying biological phenomena to organic chemistry and material sciences
Staff
MIZUTANI Tadashi
[Professor]
| Acceptable course | |
|---|---|
| Master's degree course | ✓ |
| Doctoral degree course | ✓ |
Telephone : +81-774-65-6623
tmizutan@mail.doshisha.ac.jp
Office : SC-522
Database of Researchers
Research Topics
- Preparation of organic-inorganic hybrid materials
- Development of molecular electronic materials
- Functional chemistry of linear tetrapyrrole
Research Contents
When it comes to various biological functions, organic molecules, inorganic molecules, organic polymers and inorganic crystals are adeptly brought together to each play their own role in the creation of superior catalytic activity, information processing, mechanical and electronic properties, and the like. At our laboratory, we look at these systems at a molecular level, with the aim of developing superior materials.
<1>
Chemical understanding of the formation and decomposition of bioceramics
consisting of inorganic crystals and organic polymers.
Hybridization of hydroxyapatite and water-soluble polymer by a coprecipitation process
Mechanical properties of polymer-hydroxyapatite hybrid
<2> Synthesis of liquid crystalline organic semiconductive molecules with a permanent dipole moment.
<3> Development of synthetic route to various linear tetrapyrroles using oxidative cleavage of porphyrin-iron complex as a key reaction.
Keywords
- Organic-inorganic hybrids
- Molecular electronics
- Nano-aggregates
- Porphyrin