energy
Advanced Materials Laboratory
AI-Driven Development and Functional Evaluation of Environmental and Energy Materials for Green Transformation (GX)
At the Ishizaki Laboratory, we integrate Energy, Environment, and cutting-edge Informatics to develop innovative materials that support a sustainable future. The core strength of our laboratory lies in the close synergy between our three main research pillars: Next-Generation Storage Batteries, CO2 Solutions, and AI-Driven Development.
College of Engineering Chemistry and Materials Environment and Materials Engineering
| Graduate School of Engineering and Science(Master's Program) Materials Science and Engineering Course
| Graduate School of Engineering and Science(Doctor's Program) Functional Control Systems Course
- Faculty Name
- ISHIZAKI, Takahiro
- Keyword
- Next-generation energy materials,Carbon materials,Surface treatment,Steam,Battery materials,Light metals (Aluminum and magnesium alloys)
- Laboratory location
- Research Building TOYOSU Campus 10F 10K27
This lab is for this SDG activity:
STUDY FIELDS
- Materials science and engineering
- Surface engineering
- Electrochemistry
FOR SOCIETY
Through our research activities, we will help improve energy conservation and reduce CO2 emissions by creating self-cleaning glass, extending the usable time of batteries by improving their performances, and enhancing gas mileage by making automobiles lighter.
RESEARCH THEMES
- Creation of catalyst materials through solution plasma for secondary batteries
- Construction of a Pitting Potential Prediction Model for Steam Coating Films Using Materials Informatics (MI)
- Improvement of Corrosion Resistance and Strength in Aluminum and Magnesium Alloys Using Steam Coating (SC)
- Development of catalytic materials to adsorb and reduce CO2 gas
- Fabrication of Electrode Materials for Aluminum-Ion Batteries Using Two-Dimensional Layered MXenes
- Fabrication of Electrode Materials for Lithium-Air Batteries Using High-Entropy Oxides (HEOs)
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