Biocompatibility of titanium dioxide film modified by femtosecond laser irradiation

Masahiro Tsukamoto; Togo Shinonaga; Akiko Nagai; Kimihiro Yamashita; Takao Hanawa; Nobuhiro Matsushita; Xie Guoqiang; Nobuyuki Abe

doi:10.4028/www.scientific.net/msf.783-786.1377

Biocompatibility of titanium dioxide film modified by femtosecond laser irradiation

Masahiro Tsukamoto, Togo Shinonaga, Akiko Nagai, Kimihiro Yamashita, Takao Hanawa, Nobuhiro Matsushita, Xie Guoqiang, Nobuyuki Abe

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

1 Citation (Scopus)

Abstract

Titanium (Ti) is one of the most widely used for biomaterials, because of its excellent anti-corrosion and high mechanical properties. In addion to these properies, the bioactivity of Ti is required. Recently, coating of the titanium dioxide (TiO₂) film on Ti plate surface is useful methods to obtain biocompatibility of Ti plate. If periodic nanostructures were formed on the film surface, direction of cell spreading might be controlled due to grooves direction. Then, femtosecond laser is one of the useful tools of periodic nanostructures formation. Peiriod of periodic nanostructures might be varied by changing the laser wavelength. In the experiments, the film was formed on Ti plate with an aerosol beam which was composed of submicron size TiO₂ particles and helium gas. The film was irradiated with the femtosecond laser. Laser wavelengths of the laser was at 1044, 775 and 388 nm, respectively. Periodic nanostructures, lying perpendicular to the laser electric field polarization vector, were formed on the film by femtosecond laser irradiation at 1044, 775 and 388 nm, respectively. The period of the periodic nanostructures on the film produced by femtosecond laser irradiation at 1044, 775 and 388 nm was about 350, 230 and 130 nm, respectively. In the cell test, cell spreading along the grooves of the periodic nanostructures was observed although it was not done for the film without the periodic nanostructures. These results suggested that direction of cell spreading could be controlled by the periodic nanostructures formation.

Original language	English
Title of host publication	THERMEC 2013
Editors	B. Mishra, Mihail. Ionescu, T. Chandra
Publisher	Trans Tech Publications Ltd
Pages	1377-1382
Number of pages	6
ISBN (Print)	9783038350736
DOIs	https://doi.org/10.4028/www.scientific.net/msf.783-786.1377
Publication status	Published - 2014
Externally published	Yes
Event	8th International Conference on Processing and Manufacturing of Advanced Materials, THERMEC 2013 - Las Vegas, NV, United States Duration: Dec 2 2013 → Dec 6 2013

Publication series

Name	Materials Science Forum
Volume	783-786
ISSN (Print)	0255-5476
ISSN (Electronic)	1662-9752

Other

Other	8th International Conference on Processing and Manufacturing of Advanced Materials, THERMEC 2013
Country/Territory	United States
City	Las Vegas, NV
Period	12/2/13 → 12/6/13

Keywords

Aerosol beam
Biocompatibility
Femtosecond laser
Periodic nanostructures
Titanium dioxide film

ASJC Scopus subject areas

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

Access to Document

10.4028/www.scientific.net/msf.783-786.1377

Cite this

Tsukamoto, M., Shinonaga, T., Nagai, A., Yamashita, K., Hanawa, T., Matsushita, N., Guoqiang, X., & Abe, N. (2014). Biocompatibility of titanium dioxide film modified by femtosecond laser irradiation. In B. Mishra, M. Ionescu, & T. Chandra (Eds.), THERMEC 2013 (pp. 1377-1382). (Materials Science Forum; Vol. 783-786). Trans Tech Publications Ltd. https://doi.org/10.4028/www.scientific.net/msf.783-786.1377

Biocompatibility of titanium dioxide film modified by femtosecond laser irradiation. / Tsukamoto, Masahiro; Shinonaga, Togo; Nagai, Akiko et al.
THERMEC 2013. ed. / B. Mishra; Mihail. Ionescu; T. Chandra. Trans Tech Publications Ltd, 2014. p. 1377-1382 (Materials Science Forum; Vol. 783-786).

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

Tsukamoto, M, Shinonaga, T, Nagai, A, Yamashita, K, Hanawa, T, Matsushita, N, Guoqiang, X & Abe, N 2014, Biocompatibility of titanium dioxide film modified by femtosecond laser irradiation. in B Mishra, M Ionescu & T Chandra (eds), THERMEC 2013. Materials Science Forum, vol. 783-786, Trans Tech Publications Ltd, pp. 1377-1382, 8th International Conference on Processing and Manufacturing of Advanced Materials, THERMEC 2013, Las Vegas, NV, United States, 12/2/13. https://doi.org/10.4028/www.scientific.net/msf.783-786.1377

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title = "Biocompatibility of titanium dioxide film modified by femtosecond laser irradiation",

abstract = "Titanium (Ti) is one of the most widely used for biomaterials, because of its excellent anti-corrosion and high mechanical properties. In addion to these properies, the bioactivity of Ti is required. Recently, coating of the titanium dioxide (TiO2) film on Ti plate surface is useful methods to obtain biocompatibility of Ti plate. If periodic nanostructures were formed on the film surface, direction of cell spreading might be controlled due to grooves direction. Then, femtosecond laser is one of the useful tools of periodic nanostructures formation. Peiriod of periodic nanostructures might be varied by changing the laser wavelength. In the experiments, the film was formed on Ti plate with an aerosol beam which was composed of submicron size TiO2 particles and helium gas. The film was irradiated with the femtosecond laser. Laser wavelengths of the laser was at 1044, 775 and 388 nm, respectively. Periodic nanostructures, lying perpendicular to the laser electric field polarization vector, were formed on the film by femtosecond laser irradiation at 1044, 775 and 388 nm, respectively. The period of the periodic nanostructures on the film produced by femtosecond laser irradiation at 1044, 775 and 388 nm was about 350, 230 and 130 nm, respectively. In the cell test, cell spreading along the grooves of the periodic nanostructures was observed although it was not done for the film without the periodic nanostructures. These results suggested that direction of cell spreading could be controlled by the periodic nanostructures formation.",

keywords = "Aerosol beam, Biocompatibility, Femtosecond laser, Periodic nanostructures, Titanium dioxide film",

author = "Masahiro Tsukamoto and Togo Shinonaga and Akiko Nagai and Kimihiro Yamashita and Takao Hanawa and Nobuhiro Matsushita and Xie Guoqiang and Nobuyuki Abe",

note = "Copyright: Copyright 2020 Elsevier B.V., All rights reserved.; 8th International Conference on Processing and Manufacturing of Advanced Materials, THERMEC 2013 ; Conference date: 02-12-2013 Through 06-12-2013",

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doi = "10.4028/www.scientific.net/msf.783-786.1377",

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AU - Tsukamoto, Masahiro

AU - Shinonaga, Togo

AU - Nagai, Akiko

AU - Yamashita, Kimihiro

AU - Hanawa, Takao

AU - Matsushita, Nobuhiro

AU - Guoqiang, Xie

AU - Abe, Nobuyuki

PY - 2014

Y1 - 2014

N2 - Titanium (Ti) is one of the most widely used for biomaterials, because of its excellent anti-corrosion and high mechanical properties. In addion to these properies, the bioactivity of Ti is required. Recently, coating of the titanium dioxide (TiO2) film on Ti plate surface is useful methods to obtain biocompatibility of Ti plate. If periodic nanostructures were formed on the film surface, direction of cell spreading might be controlled due to grooves direction. Then, femtosecond laser is one of the useful tools of periodic nanostructures formation. Peiriod of periodic nanostructures might be varied by changing the laser wavelength. In the experiments, the film was formed on Ti plate with an aerosol beam which was composed of submicron size TiO2 particles and helium gas. The film was irradiated with the femtosecond laser. Laser wavelengths of the laser was at 1044, 775 and 388 nm, respectively. Periodic nanostructures, lying perpendicular to the laser electric field polarization vector, were formed on the film by femtosecond laser irradiation at 1044, 775 and 388 nm, respectively. The period of the periodic nanostructures on the film produced by femtosecond laser irradiation at 1044, 775 and 388 nm was about 350, 230 and 130 nm, respectively. In the cell test, cell spreading along the grooves of the periodic nanostructures was observed although it was not done for the film without the periodic nanostructures. These results suggested that direction of cell spreading could be controlled by the periodic nanostructures formation.

AB - Titanium (Ti) is one of the most widely used for biomaterials, because of its excellent anti-corrosion and high mechanical properties. In addion to these properies, the bioactivity of Ti is required. Recently, coating of the titanium dioxide (TiO2) film on Ti plate surface is useful methods to obtain biocompatibility of Ti plate. If periodic nanostructures were formed on the film surface, direction of cell spreading might be controlled due to grooves direction. Then, femtosecond laser is one of the useful tools of periodic nanostructures formation. Peiriod of periodic nanostructures might be varied by changing the laser wavelength. In the experiments, the film was formed on Ti plate with an aerosol beam which was composed of submicron size TiO2 particles and helium gas. The film was irradiated with the femtosecond laser. Laser wavelengths of the laser was at 1044, 775 and 388 nm, respectively. Periodic nanostructures, lying perpendicular to the laser electric field polarization vector, were formed on the film by femtosecond laser irradiation at 1044, 775 and 388 nm, respectively. The period of the periodic nanostructures on the film produced by femtosecond laser irradiation at 1044, 775 and 388 nm was about 350, 230 and 130 nm, respectively. In the cell test, cell spreading along the grooves of the periodic nanostructures was observed although it was not done for the film without the periodic nanostructures. These results suggested that direction of cell spreading could be controlled by the periodic nanostructures formation.

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Y2 - 2 December 2013 through 6 December 2013

ER -

Biocompatibility of titanium dioxide film modified by femtosecond laser irradiation

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