Add to ORKGAbstract Anodic oxidation is a chemical method which used to produce bioactive layer (oxide) of titanium (Ti). The aim of this study is to evaluate the effect of Ti anodic oxidation in an acetic acid (C2H4O2). The anodic oxidation was performed by varying the applied voltage (10 -200 V) and the concentration of electrolyte (0.5, 1.5 and 3.0 M of C2H402). The Ti specimens were soaked in simulated body fluid (SBF) to observe the precipitation of hydroxyapatite (HAP). The anodized Ti was characterized using X-ray diffraction (XRrD) and scanning electron microscopy (SEM). The precipitation of apatite after soaked in SBF was observed using SEM. From this study, the applied voltage range from 100 to 200 V andlor high concentrations of acetic acid...
Bioactive coatings were prepared on titanium foils using anodic oxidation at applied voltage of 350 ...
Fabrication of bioactive titanium (Ti) by using anodic oxidation method for biomedical application a...
Fabricating a photocatalytic oxide layer on biomaterial surfaces has recently attracted a great deal...
Anodic oxidation has been widely used to modify the surface properties of titanium in order to impr...
Anodic oxidation has been widely used to modify the surface properties of titanium in order to impr...
Surface modification is a process that is applied to the surfaces of titanium substrates in order t...
Naturally, titanium (Ti) has bioinert surface which is a non-preferred nucleation site for bone-like...
Titanium is a metallic biomaterial having multidimensional properties, highly sophisticated function...
Anodic oxidation has been widely used to modify the surface properties of titanium in order to impro...
Among all biomaterials used for bone replacement, it is recognized that both commercially pure tita...
Among all biomaterials used for bone replacement, it is recognized that both commercially pure titan...
Anodic oxidation (AO) of titanium is a common electrochemical process for surface modification of me...
Background: Several studies proved that anodic oxidation improves osseointegration. This study aimed...
The composition of the electrolytes used in the process of anodic oxidation was modified to generate...
Titanium surface characteristics determine the degree of success of permanent implants. The topograp...
Bioactive coatings were prepared on titanium foils using anodic oxidation at applied voltage of 350 ...
Fabrication of bioactive titanium (Ti) by using anodic oxidation method for biomedical application a...
Fabricating a photocatalytic oxide layer on biomaterial surfaces has recently attracted a great deal...
Anodic oxidation has been widely used to modify the surface properties of titanium in order to impr...
Anodic oxidation has been widely used to modify the surface properties of titanium in order to impr...
Surface modification is a process that is applied to the surfaces of titanium substrates in order t...
Naturally, titanium (Ti) has bioinert surface which is a non-preferred nucleation site for bone-like...
Titanium is a metallic biomaterial having multidimensional properties, highly sophisticated function...
Anodic oxidation has been widely used to modify the surface properties of titanium in order to impro...
Among all biomaterials used for bone replacement, it is recognized that both commercially pure tita...
Among all biomaterials used for bone replacement, it is recognized that both commercially pure titan...
Anodic oxidation (AO) of titanium is a common electrochemical process for surface modification of me...
Background: Several studies proved that anodic oxidation improves osseointegration. This study aimed...
The composition of the electrolytes used in the process of anodic oxidation was modified to generate...
Titanium surface characteristics determine the degree of success of permanent implants. The topograp...
Bioactive coatings were prepared on titanium foils using anodic oxidation at applied voltage of 350 ...
Fabrication of bioactive titanium (Ti) by using anodic oxidation method for biomedical application a...
Fabricating a photocatalytic oxide layer on biomaterial surfaces has recently attracted a great deal...