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SURFACE MODIFICATION OF TITANIUM FILMS WITH SODIUM ION IMPLANTATION: SURFACE PROPERTIES AND PROTEIN ADSORPTION
引用本文:K.Y. Cai College of Bioengineering,Chong Qing University,Chongqing 400044,China. SURFACE MODIFICATION OF TITANIUM FILMS WITH SODIUM ION IMPLANTATION: SURFACE PROPERTIES AND PROTEIN ADSORPTION[J]. 金属学报(英文版), 2007, 20(2): 148-156. DOI: 10.1016/S1006-7191(07)60019-2
作者姓名:K.Y. Cai College of Bioengineering  Chong Qing University  Chongqing 400044  China
作者单位:K.Y. Cai College of Bioengineering,Chong Qing University,Chongqing 400044,China
基金项目:Acknowledgements This work was supported by the Scientific Research Foundation for the Returned 0verseas Chinese Scholars of Chong Qing University (No. 2005-32).
摘    要:Sodium implanted titanium films with different ion doses were characterized to correlate their ion implantation parameters. Native titanium films and ion implanted titanium films were characterized with combined techniques of X-ray photoelectron spectroscopy (XPS), atomic force microscopy (AFM), and light microscopy (LM). The surface presented increased sodium concentration on treated titanium films with ion dose increasing, except for the group with the highest ion dose of 4× 1017 ions/cm2. XPS depth profiling displayed that sodium entered titanium film around 25-50 nm depth depending on its implantation ion dose. AFM characterization showed that sodium ion implantation treatment changed the surface morphology from a relatively smooth titanium film to rough surfaces corresponding to different implantation doses.After sodium implantation, implanted titanium films presented big particles with island structure morphology. The surface morphology and particle growth displayed the corresponding trend.Fibrinogen adsorption on these titanium films was performed to correlate with the surface properties of treated titanium films. The results show that protein adsorption on ion-implanted samples with dose of 2 × 1017 and 4 × 1017 are statistically higher (p < 0. 01) than samples treated with dose of 5×1016 and 1 ×1017, as well as the control samples.

关 键 词:钛膜 钠离子注入 表面改性 蛋白质吸附作用 表面性质 埋植物
收稿时间:2006-08-13

Surface Modification of Titanium Films with Sodium Ion Implantation: Surface Properties and Protein Adsorption
K. Y. Cai. Surface Modification of Titanium Films with Sodium Ion Implantation: Surface Properties and Protein Adsorption[J]. Acta Metallurgica Sinica(English Letters), 2007, 20(2): 148-156. DOI: 10.1016/S1006-7191(07)60019-2
Authors:K. Y. Cai
Affiliation:College of Bioengineering, Chong Qing University
Abstract:Sodium implanted titanium films with different ion doses were characterized to correlate their ion implantation parameters. Native titanium films and ion implanted titanium films were characterized with combined techniques of X-ray photoelectron spectroscopy (XPS), atomic force microscopy (AFM), and light microscopy (LM). The surface presented increased sodium concentration on treated titanium films with ion dose increasing, except for the group with the highest ion dose of 4 × 1017ions /cm 2. XPS depth profiling displayed that sodium entered titanium film around 25-50nm depth depending on its implantation ion dose. AFM characterization showed that sodium ion implantation treatment changed the surface morphology from a relatively smooth titanium film to rough surfaces corresponding to different implantation doses. After sodium implantation, implanted titanium films presented big particles with island structure morphology. The surface morphology and particle growth displayed the corresponding trend. Fibrinogen adsorption on these titanium films was performed in this study to correlate with the surface properties of treated titanium films. The results show that protein adsorption on ion-implanted samples with dose of 2 × 1017 and 4 × 1017 are statistically higher (p < 0.01) than samples treated with dose of 5 × 1016 and 1 × 1017, as well as the control samples.
Keywords:titanium film  sodium ion implantation  protein adsorption  surface characterization  ION IMPLANTATION  SODIUM  FILMS  TITANIUM  MODIFICATION  SURFACE  PROTEIN ADSORPTION  control  results  show  protein adsorption  Fibrinogen  surface properties  particles  growth  trend  structure  surface morphology  characterization  treatment
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