Primary Researcher(s) / Coordinator(s): Assist. Prof. Dr. Batur Ercan
General Information

The group is interested in integrating fundamental materials science concepts with biological principles to improve currently used biomaterials to heal damaged tissues. Particularly, biomaterial surface features are modified to possess nanofeatures to promote orthopedic, cardiovascular and skin cell interactions, while enhancing antibacterial properties.

Equipments
  • -80°C , -20°C and +4°C refrigerator
  • Liquid nitrogen tank
  • CO2 Incubator
  • Class II Biological Safety Cabinet
  • Olympus inverted microscope
  • Olympus inverted microscope
  • Olympus inverted microscope
  • Centrifuge
  • DC power supply
  • Drying Oven
  • Precision balance
  • pH meter
  • Vortex and hot plate
  • Sonicator
  • Rocker
Completed and Ongoing Research Projects
  • Nanostructured zirconium and its fabrication. METU Research Funds (BAP), 2018.
  • Fabrication of nanofeatured Ti6Al7Nb. METU Research Funds (BAP), 2017.
  • Fabrication of a Silk/CNF based cardiac patch and its biological properties. COST Action, 2017.
  • The use of tantalum oxide nanostructures fabricated in different morphologies and sizes in orthopedics. TUBITAK Career grant, 2017.
  • Synthesis of insulin loaded bioceramic nanoparticles for diabetes. METU Research Funds (BAP), 2016.
Collaborators
  • Prof. Thomas Webster, Chemical Engineering Department, Northeastern University
  • Prof. Mehmet Toner, MGH, Harvard Medical School
Lab Images

Last Updated:
11/07/2019 - 17:51