Gokyer, S. Et Al. 2024. MgCa-Based Alloys Modified with Zn- and Ga-Doped CaP Coatings Lead to Controlled Degradation and Enhanced Bone Formation in a Sheep Cranium Defect Model. ACS Biomaterials Science and Engineering , vol.10, no.7 , 4452-4462.

Gokyer, S., Monsef, Y. A., BÜYÜKSUNGUR, S., Schmidt, J., Vladescu Dragomir, A., Uygur, S., ... Uygur, S.(2024). MgCa-Based Alloys Modified with Zn- and Ga-Doped CaP Coatings Lead to Controlled Degradation and Enhanced Bone Formation in a Sheep Cranium Defect Model. ACS Biomaterials Science and Engineering , vol.10, no.7, 4452-4462.

Gokyer, Seyda Et Al. "MgCa-Based Alloys Modified with Zn- and Ga-Doped CaP Coatings Lead to Controlled Degradation and Enhanced Bone Formation in a Sheep Cranium Defect Model," ACS Biomaterials Science and Engineering , vol.10, no.7, 4452-4462, 2024

Gokyer, Seyda Et Al. "MgCa-Based Alloys Modified with Zn- and Ga-Doped CaP Coatings Lead to Controlled Degradation and Enhanced Bone Formation in a Sheep Cranium Defect Model." ACS Biomaterials Science and Engineering , vol.10, no.7, pp.4452-4462, 2024

Gokyer, S. Et Al. (2024) . "MgCa-Based Alloys Modified with Zn- and Ga-Doped CaP Coatings Lead to Controlled Degradation and Enhanced Bone Formation in a Sheep Cranium Defect Model." ACS Biomaterials Science and Engineering , vol.10, no.7, pp.4452-4462.

@article{article, author={Seyda Gokyer Et Al. }, title={MgCa-Based Alloys Modified with Zn- and Ga-Doped CaP Coatings Lead to Controlled Degradation and Enhanced Bone Formation in a Sheep Cranium Defect Model}, journal={ACS Biomaterials Science and Engineering}, year=2024, pages={4452-4462} }