🔬 Research Infrastructure and Facilities

Our group is supported by a variety of specialized equipment, tools, and digital platforms that enable high-quality research in biomaterials science:​

🧪 Laboratory Equipment

• 3D Printer for Medical Implants

Used in the fabrication of custom-designed polymer-based biomedical implants with precise resolution.

• Electrochemical Corrosion Testing Setup

Allows simulation of in-body environments for alloy degradation studies.

• SEM & XRD Systems (via partner labs)

Used for structural and surface characterization of titanium and high-entropy alloys.

🧫 Biological Testing Resources

• In Vitro Culture Systems

For fibroblast and osteoblast cell testing with real-time analysis.

• Animal Model Facilities

In collaboration with institutional labs for in vivo biocompatibility validation.

💻 Software and Digital Tools

• Materials Studio, ImageJ, MATLAB

For microstructure modeling, corrosion analysis, and mechanical data processing.

• Cloud Storage and Data Backup Systems

Secure storage for high-resolution imaging and large-scale data collection.

🌐 Shared Partner Facilities

• Access to research platforms at:

• National Institute for Materials Science (NIMS), Japan

• University of Tsukuba Biomedical Materials Laboratory

These resources collectively empower our interdisciplinary research approach and support our ongoing collaborations.​