Influence of hydrogen charging on the formation of nanostructural titanium surface by electrochemical treatments

Chin-Sung Chen; H. C. Cheng; S. Y. Lee; C. T. Lin; C. C. Chan; K. L. Ou

doi:10.1149/1.2209371

Influence of hydrogen charging on the formation of nanostructural titanium surface by electrochemical treatments

Chin-Sung Chen, H. C. Cheng, S. Y. Lee, C. T. Lin, C. C. Chan, K. L. Ou

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

The influences of nanophases (titanium hydride compounds) on the formation of nanostructural titanium oxide by electrochemical treatment was investigated by XPS, TF-XRD, XTEM, and SEM. Nanostructural TiO₂ was formed after anodization with cathodic pretreatments. The nano-TiH₂ is formed by cathodic pretreatments. The nano-TiH₂ is directly dissolved after anodization. Furthermore, the nanoporous Ti formed by dissolution of nano-TiH₂ were changed to nanoporous TiO₂. The nano-TiH₂ plays an important role in forming nanoporous TiO ₂. The anodization with cathodic pretreatment not only produces nano-titanium hydride layer, but also results in formation of nanostructural titanium oxide. It is believed that bioactive titanium implant with oxidation and nanostructure can be enhanced and integrated bone interface contact. copyright The Electrochemical Society.

Original language	English
Title of host publication	Dielectrics and the Dielectric-Electrolyte Interface in Biological and Biomedical Applications
Publisher	Electrochemical Society Inc.
Pages	17-27
Number of pages	11
Edition	28
ISBN (Electronic)	9781566774802
DOIs	https://doi.org/10.1149/1.2209371
Publication status	Published - 2006
Event	Dielectrics and the Dielectric-Electrolyte Interface in Bilogical and Biomedical Applications - 208th Electrochemical Society Meeting - Los Angeles, CA, United States Duration: Oct 16 2005 → Oct 21 2005

Publication series

Name	ECS Transactions
Number	28
Volume	1
ISSN (Print)	1938-5862
ISSN (Electronic)	1938-6737

Other

Other	Dielectrics and the Dielectric-Electrolyte Interface in Bilogical and Biomedical Applications - 208th Electrochemical Society Meeting
Country/Territory	United States
City	Los Angeles, CA
Period	10/16/05 → 10/21/05

ASJC Scopus subject areas

General Engineering

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10.1149/1.2209371

Cite this

Chen, C.-S., Cheng, H. C., Lee, S. Y., Lin, C. T., Chan, C. C., & Ou, K. L. (2006). Influence of hydrogen charging on the formation of nanostructural titanium surface by electrochemical treatments. In Dielectrics and the Dielectric-Electrolyte Interface in Biological and Biomedical Applications (28 ed., pp. 17-27). (ECS Transactions; Vol. 1, No. 28). Electrochemical Society Inc.. https://doi.org/10.1149/1.2209371

Influence of hydrogen charging on the formation of nanostructural titanium surface by electrochemical treatments. / Chen, Chin-Sung; Cheng, H. C.; Lee, S. Y. et al.
Dielectrics and the Dielectric-Electrolyte Interface in Biological and Biomedical Applications. 28. ed. Electrochemical Society Inc., 2006. p. 17-27 (ECS Transactions; Vol. 1, No. 28).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Chen, C-S, Cheng, HC , Lee, SY, Lin, CT, Chan, CC & Ou, KL 2006, Influence of hydrogen charging on the formation of nanostructural titanium surface by electrochemical treatments. in Dielectrics and the Dielectric-Electrolyte Interface in Biological and Biomedical Applications. 28 edn, ECS Transactions, no. 28, vol. 1, Electrochemical Society Inc., pp. 17-27, Dielectrics and the Dielectric-Electrolyte Interface in Bilogical and Biomedical Applications - 208th Electrochemical Society Meeting, Los Angeles, CA, United States, 10/16/05. https://doi.org/10.1149/1.2209371

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title = "Influence of hydrogen charging on the formation of nanostructural titanium surface by electrochemical treatments",

abstract = "The influences of nanophases (titanium hydride compounds) on the formation of nanostructural titanium oxide by electrochemical treatment was investigated by XPS, TF-XRD, XTEM, and SEM. Nanostructural TiO2 was formed after anodization with cathodic pretreatments. The nano-TiH2 is formed by cathodic pretreatments. The nano-TiH2 is directly dissolved after anodization. Furthermore, the nanoporous Ti formed by dissolution of nano-TiH2 were changed to nanoporous TiO2. The nano-TiH2 plays an important role in forming nanoporous TiO 2. The anodization with cathodic pretreatment not only produces nano-titanium hydride layer, but also results in formation of nanostructural titanium oxide. It is believed that bioactive titanium implant with oxidation and nanostructure can be enhanced and integrated bone interface contact. copyright The Electrochemical Society.",

author = "Chin-Sung Chen and Cheng, {H. C.} and Lee, {S. Y.} and Lin, {C. T.} and Chan, {C. C.} and Ou, {K. L.}",

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AU - Chan, C. C.

AU - Ou, K. L.

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N2 - The influences of nanophases (titanium hydride compounds) on the formation of nanostructural titanium oxide by electrochemical treatment was investigated by XPS, TF-XRD, XTEM, and SEM. Nanostructural TiO2 was formed after anodization with cathodic pretreatments. The nano-TiH2 is formed by cathodic pretreatments. The nano-TiH2 is directly dissolved after anodization. Furthermore, the nanoporous Ti formed by dissolution of nano-TiH2 were changed to nanoporous TiO2. The nano-TiH2 plays an important role in forming nanoporous TiO 2. The anodization with cathodic pretreatment not only produces nano-titanium hydride layer, but also results in formation of nanostructural titanium oxide. It is believed that bioactive titanium implant with oxidation and nanostructure can be enhanced and integrated bone interface contact. copyright The Electrochemical Society.

AB - The influences of nanophases (titanium hydride compounds) on the formation of nanostructural titanium oxide by electrochemical treatment was investigated by XPS, TF-XRD, XTEM, and SEM. Nanostructural TiO2 was formed after anodization with cathodic pretreatments. The nano-TiH2 is formed by cathodic pretreatments. The nano-TiH2 is directly dissolved after anodization. Furthermore, the nanoporous Ti formed by dissolution of nano-TiH2 were changed to nanoporous TiO2. The nano-TiH2 plays an important role in forming nanoporous TiO 2. The anodization with cathodic pretreatment not only produces nano-titanium hydride layer, but also results in formation of nanostructural titanium oxide. It is believed that bioactive titanium implant with oxidation and nanostructure can be enhanced and integrated bone interface contact. copyright The Electrochemical Society.

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Influence of hydrogen charging on the formation of nanostructural titanium surface by electrochemical treatments

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