2020
DOI: 10.1016/j.actbio.2020.02.009
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Enhanced interfacial adhesion and osseointegration of anodic TiO2 nanotube arrays on ultra-fine-grained titanium and underlying mechanisms

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Cited by 37 publications
(18 citation statements)
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“…In this research, it has been shown that TiO 2 NTs with length of 0.4 µm, because of less interfacial stress, have high adhesion strength as compared to the longer NTs with length of 2 µm. 94 Employing an innovative method, Alves et al managed to fabricate a collection of 50-90 nm diameter TiO 2 NTs, which simulated the morphology of micron structure of natural bone, and filled them with bioactive elements (calcium and phosphorous) to construct a more efficient bio-functional implant surface. The results demonstrated an enhancement in osteoblastic cell function and adhesion at the interface, along with displaying an improved corrosion behavior for TiO 2 NTs.…”
Section: Bone Implantsmentioning
confidence: 99%
“…In this research, it has been shown that TiO 2 NTs with length of 0.4 µm, because of less interfacial stress, have high adhesion strength as compared to the longer NTs with length of 2 µm. 94 Employing an innovative method, Alves et al managed to fabricate a collection of 50-90 nm diameter TiO 2 NTs, which simulated the morphology of micron structure of natural bone, and filled them with bioactive elements (calcium and phosphorous) to construct a more efficient bio-functional implant surface. The results demonstrated an enhancement in osteoblastic cell function and adhesion at the interface, along with displaying an improved corrosion behavior for TiO 2 NTs.…”
Section: Bone Implantsmentioning
confidence: 99%
“…[106,107] However, the results of the anodization process, can also be influenced by the microstructure of substrate material. [13,106,108,109] It is well known that the large number of structural defects act as preferred sites for active dissolution. [7,32,110] Thereby, it can be assumed that the anodization of UFG/nano Ti results in the faster formation of nanotubes with differential morphology compared with micro Ti.…”
Section: Electrochemical Anodization-nanotubular Topography With Thermentioning
confidence: 99%
“…To the best knowledge of the authors, the first trials to evaluate the effect of the substrate nanostructure on the nanotubes formation were presented for nano Ti fabricated by HE. [108] This process has also been studied for nano Ti fabricated by commonly used SPD techniques such as HPT [13,106,109] and ECAP. [105] It was found that the grain refinement to the nanoscale had virtually no influence on the nanotube diameter.…”
Section: Electrochemical Anodization-nanotubular Topography With Thermentioning
confidence: 99%
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