T. Guo Et Al. , "Untwining the topography-chemistry interdependence to optimize the bioactivity of nano-engineered titanium implants," Applied Surface Science , vol.570, 2021
Guo, T. Et Al. 2021. Untwining the topography-chemistry interdependence to optimize the bioactivity of nano-engineered titanium implants. Applied Surface Science , vol.570 .
Guo, T., Kocak Oztug, N. A., Han, P., Ivanovski, S., & Gulati, K., (2021). Untwining the topography-chemistry interdependence to optimize the bioactivity of nano-engineered titanium implants. Applied Surface Science , vol.570.
Guo, Tianqi Et Al. "Untwining the topography-chemistry interdependence to optimize the bioactivity of nano-engineered titanium implants," Applied Surface Science , vol.570, 2021
Guo, Tianqi Et Al. "Untwining the topography-chemistry interdependence to optimize the bioactivity of nano-engineered titanium implants." Applied Surface Science , vol.570, 2021
Guo, T. Et Al. (2021) . "Untwining the topography-chemistry interdependence to optimize the bioactivity of nano-engineered titanium implants." Applied Surface Science , vol.570.
@article{article, author={Tianqi Guo Et Al. }, title={Untwining the topography-chemistry interdependence to optimize the bioactivity of nano-engineered titanium implants}, journal={Applied Surface Science}, year=2021}