Objective of our work is development and characterization of novel functional polymers and organometallic compounds directed toward organic devices and catalysts.
We are challenging to create new materials, technologies, and research areas for contributing to the society by conducting the research about new two-dimensional materials, a substitute material of Pt at the Fuel Cell electrode using nitrogen-doped carbon, and reaction dynamics at surface.
Our research involves characterization and development of redox enzymes and nano materials for bioelectrochemical devices. Of particular interest is heterogeneous electron transfer reaction of redox enzymes as electrocatalyst.
We focus on a preparation of supramolecular nanomaterials consisting of π-conjugated small- and macro-molecules and construct nanodevices which are expected to exhibit optoelectronic and energy conversion properties.
The research of our group encompasses nano-bioscience, life science, medical science, and food science. In particular, we focus on point of care testing (POCT) devices and DNA nano-machines based on DNA nano-system using DNA molecules as a programmable constitutional unit.
Objective of our research is development of novel functional materials toward molecular devices and biomimetic molecules based on organometallic, polymer and supramolecular chemistry.
Our group develops and investigates chiral piconjugated semiconducting polymers for redox and chiro-optoelectronic applications with liquid crystal technology.
Using organic chemistry, optical physics, and molecular biology, we develop laser bioprobes, flexible optical devices, and artificial life-like reactions.
We focus on the materials synthesis related to hydrogen energy applications by controlling the assembly structure of organic and inorganic nanomaterials.
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