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Novel hydroxyapatite/graphene oxide/collagen bioactive composite coating on Ti16Nb alloys by electrodeposition

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dc.contributor.authors Yilmaz, E; Cakiroglu, B; Gokce, A; Findik, F; Gulsoy, HO; Gulsoy, N; Mutlu, O; Ozacar, M;
dc.date.accessioned 2020-02-24T14:22:02Z
dc.date.available 2020-02-24T14:22:02Z
dc.date.issued 2019
dc.identifier.citation Yilmaz, E; Cakiroglu, B; Gokce, A; Findik, F; Gulsoy, HO; Gulsoy, N; Mutlu, O; Ozacar, M; (2019). Novel hydroxyapatite/graphene oxide/collagen bioactive composite coating on Ti16Nb alloys by electrodeposition. MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS, 101, 305-292
dc.identifier.issn 0928-4931
dc.identifier.uri https://doi.org/10.1016/j.msec.2019.03.078
dc.identifier.uri https://hdl.handle.net/20.500.12619/45312
dc.description.abstract A novel implant coating material containing graphene oxide (GO) and collagen (COL), and hydroxyapatite (HA) was fabricated with the aid of tannic acid by electrodeposition. The surface of Ti16Nb alloy was subjected to anodic oxidation, and then HA-GO coating was applied to Ti16Nb surface by cathodic method. Then, COL was deposited on the surface of the HA-GO coating by the biomimetic method. HA, HA-GO, HA-GO-COL coatings on the surface of the Ti16Nb alloy have increased the corrosion resistance by the formation of a barrier layer on the surface. For HA-GO-COL coating, the highest corrosion resistance is obtained due to the compactness and homogeneity of the coating structure. The contact angle of the bare Ti16Nb is approximately 65 degrees, while the contact angle of the coated samples is close to 0 degrees. Herein, the increased surface wettability is important for cell adhesion. The surface roughness of the uncoated Ti16Nb alloy was between 1 and 3 mu m, while the surface roughness of the coated surfaces was measured between 20 and 110 mu m. The contact between the bone and the implant has been improved. Graphene oxide-containing coatings have improved the antibacterial properties compared to the GO-free coating using S. aureus. The hardness and elastic modulus of the coatings were measured by the nanoindentation test, and the addition of GO and collagen to the HA coating resulted in an increase in strength. The addition of GO to the HA coating reduced the viability of 3 T3 fibroblast cells, whereas the addition of collagen to HA-GO coat increased the cell adhesion and viability.
dc.language English
dc.publisher ELSEVIER SCIENCE BV
dc.subject Materials Science
dc.title Novel hydroxyapatite/graphene oxide/collagen bioactive composite coating on Ti16Nb alloys by electrodeposition
dc.type Article
dc.identifier.volume 101
dc.identifier.startpage 292
dc.identifier.endpage 305
dc.contributor.department Sakarya Üniversitesi/Biyomedikal, Manyetik Ve Yarıiletken Malzemeler Araştırma Merkezi
dc.contributor.saüauthor Yılmaz, Eren
dc.contributor.saüauthor Çakıroğlu, Bekir
dc.contributor.saüauthor Gökçe, Azim
dc.contributor.saüauthor Fındık, Fehim
dc.contributor.saüauthor Özacar, Mahmut
dc.relation.journal MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS
dc.identifier.wos WOS:000471359100028
dc.identifier.doi 10.1016/j.msec.2019.03.078
dc.identifier.eissn 1873-0191
dc.contributor.author Yılmaz, Eren
dc.contributor.author Çakıroğlu, Bekir
dc.contributor.author Gökçe, Azim
dc.contributor.author Fındık, Fehim
dc.contributor.author H. Ozkan Gulsoy
dc.contributor.author Nagihan Gulsoy
dc.contributor.author Ozal Mutlu
dc.contributor.author Özacar, Mahmut


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