E. Dönmez Et Al. , "The Effect of Fmoc Amino acid Modification of Reduced Graphene Oxide Ti Surfaces on Osteoblast Functions," Advanced Materials World Congress , Stockholm, Sweden, 2015
Dönmez, E. Et Al. 2015. The Effect of Fmoc Amino acid Modification of Reduced Graphene Oxide Ti Surfaces on Osteoblast Functions. Advanced Materials World Congress , (Stockholm, Sweden).
Dönmez, E., Nacar, F., Ak, A., Aslı, E., Garipcan, B., & Üstündağ, Z., (2015). The Effect of Fmoc Amino acid Modification of Reduced Graphene Oxide Ti Surfaces on Osteoblast Functions . Advanced Materials World Congress, Stockholm, Sweden
Dönmez, Elif Et Al. "The Effect of Fmoc Amino acid Modification of Reduced Graphene Oxide Ti Surfaces on Osteoblast Functions," Advanced Materials World Congress, Stockholm, Sweden, 2015
Dönmez, Elif Et Al. "The Effect of Fmoc Amino acid Modification of Reduced Graphene Oxide Ti Surfaces on Osteoblast Functions." Advanced Materials World Congress , Stockholm, Sweden, 2015
Dönmez, E. Et Al. (2015) . "The Effect of Fmoc Amino acid Modification of Reduced Graphene Oxide Ti Surfaces on Osteoblast Functions." Advanced Materials World Congress , Stockholm, Sweden.
@conferencepaper{conferencepaper, author={Elif Dönmez Et Al. }, title={The Effect of Fmoc Amino acid Modification of Reduced Graphene Oxide Ti Surfaces on Osteoblast Functions}, congress name={Advanced Materials World Congress}, city={Stockholm}, country={Sweden}, year={2015}}