Regional Analytical Science
Advanced material science research Detailed research information > Gangneung Center > Regional Analytical Science > Major Research Activities Home
Advanced material science research
Focus of the research
- Functional three-dimensional optics crystal production and material property analysis
- Research on lithium ion battery’s changes in heat transmission characteristics
- High velocity charge and discharge enabled by micro lithium ion battery development that is capable of high velocity charge and discharge
- Lithium ion battery development research capable of formation changes
Representative research cases
Various three-dimensional self-assembly substance development of optics controlling characteristics and standard analytical method development produced based on lumminace for material properties
- Research and development that could be applied in the fields of the battery industry and green energy, drug transmission, living organism molecule detection
Porous optics crystal production and material property analysis results
Thermal conductivity and elastic modulus analysis depending on lithium ion’s concentration
- This study provides the capability of investigating an accurate mechanism relating heat outbreak of the lithium ion battery to charge and discharge applications. This study’s research results show that it developed tunable thermal transport system development application capable of controlling thermal conductivity, one of the material’s unique characteristics.
- Thermal conductivity measurement system schematic diagram
- LiCoO2 thin membrane’s thermal conductivity change
Micro-lithium ion battery development
- Applied three-dimensional metal nano structure as a current collector, and developed a micro lithium ion battery by a coating of thin membrane forms’ active layer, reducing Lithuanians expansion range, and developing micro lithium ion battery by fattening
- Verified outstanding characteristics that are capable of high velocity charge and discharge comparing the existing lithium ion battery. The results are projected to be utilized for future MEMS, NEMS element application
Development of elastic lithium ion battery with a flexible form
- Having eliminated the limitations relating to the lithium ion battery’s formation, it projects the feasibility of bio fusion research application