Corrosion resistance and cytotoxicity of a MgF2 coating on biomedical Mg-1Ca alloy via vacuum evaporation deposition method

N. Li; Y. D. Li; Y. B. Wang; M. Li; Y. Cheng; Y. H. Wu; Y. F. Zheng

doi:10.1002/sia.5257

Corrosion resistance and cytotoxicity of a MgF₂ coating on biomedical Mg-1Ca alloy via vacuum evaporation deposition method

N. Li, Y. D. Li, Y. B. Wang, M. Li, Y. Cheng, Y. H. Wu, Y. F. Zheng^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

50 Citations (Scopus)

Abstract

To reduce the biocorrosion rate and enhance the biocompatibility by surface modification, MgF₂ coatings were prepared on Mg-1Ca alloy using vacuum evaporation deposition method. The average thickness of the coating was about 0.95 μm. The results of immersion test and electrochemical test indicated that the corrosion rate of Mg-1Ca alloy was effectively decreased after coating with MgF₂. The MgF₂ coating induced calcium phosphate deposition on Mg-1Ca alloy. After 72 h culture, MG63 cells and MC3T3-E1 cells were well spread on the surface of the MgF₂-coated Mg-1Ca alloy, while few cells were observed on uncoated Mg-1Ca alloy samples. In summary, MgF₂ coating showed beneficial effects on the corrosion resistance and thus improved cell response of the Mg-1Ca alloy effectively and should be a good surface modification method for other biomedical magnesium alloys.

Original language	English
Pages (from-to)	1217-1222
Number of pages	6
Journal	Surface and Interface Analysis
Volume	45
Issue number	8
DOIs	https://doi.org/10.1002/sia.5257
Publication status	Published - Aug 2013
Externally published	Yes

Keywords

Mg-1Ca alloy
biocompatibility
corrosion resistance
magnesium fluoride
surface modification

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title = "Corrosion resistance and cytotoxicity of a MgF2 coating on biomedical Mg-1Ca alloy via vacuum evaporation deposition method",

abstract = "To reduce the biocorrosion rate and enhance the biocompatibility by surface modification, MgF2 coatings were prepared on Mg-1Ca alloy using vacuum evaporation deposition method. The average thickness of the coating was about 0.95 μm. The results of immersion test and electrochemical test indicated that the corrosion rate of Mg-1Ca alloy was effectively decreased after coating with MgF2. The MgF2 coating induced calcium phosphate deposition on Mg-1Ca alloy. After 72 h culture, MG63 cells and MC3T3-E1 cells were well spread on the surface of the MgF2-coated Mg-1Ca alloy, while few cells were observed on uncoated Mg-1Ca alloy samples. In summary, MgF2 coating showed beneficial effects on the corrosion resistance and thus improved cell response of the Mg-1Ca alloy effectively and should be a good surface modification method for other biomedical magnesium alloys.",

keywords = "Mg-1Ca alloy, biocompatibility, corrosion resistance, magnesium fluoride, surface modification",

author = "N. Li and Li, {Y. D.} and Wang, {Y. B.} and M. Li and Y. Cheng and Wu, {Y. H.} and Zheng, {Y. F.}",

year = "2013",

month = aug,

doi = "10.1002/sia.5257",

language = "English",

volume = "45",

pages = "1217--1222",

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TY - JOUR

T1 - Corrosion resistance and cytotoxicity of a MgF2 coating on biomedical Mg-1Ca alloy via vacuum evaporation deposition method

AU - Li, N.

AU - Li, Y. D.

AU - Wang, Y. B.

AU - Li, M.

AU - Cheng, Y.

AU - Wu, Y. H.

AU - Zheng, Y. F.

PY - 2013/8

Y1 - 2013/8

N2 - To reduce the biocorrosion rate and enhance the biocompatibility by surface modification, MgF2 coatings were prepared on Mg-1Ca alloy using vacuum evaporation deposition method. The average thickness of the coating was about 0.95 μm. The results of immersion test and electrochemical test indicated that the corrosion rate of Mg-1Ca alloy was effectively decreased after coating with MgF2. The MgF2 coating induced calcium phosphate deposition on Mg-1Ca alloy. After 72 h culture, MG63 cells and MC3T3-E1 cells were well spread on the surface of the MgF2-coated Mg-1Ca alloy, while few cells were observed on uncoated Mg-1Ca alloy samples. In summary, MgF2 coating showed beneficial effects on the corrosion resistance and thus improved cell response of the Mg-1Ca alloy effectively and should be a good surface modification method for other biomedical magnesium alloys.

AB - To reduce the biocorrosion rate and enhance the biocompatibility by surface modification, MgF2 coatings were prepared on Mg-1Ca alloy using vacuum evaporation deposition method. The average thickness of the coating was about 0.95 μm. The results of immersion test and electrochemical test indicated that the corrosion rate of Mg-1Ca alloy was effectively decreased after coating with MgF2. The MgF2 coating induced calcium phosphate deposition on Mg-1Ca alloy. After 72 h culture, MG63 cells and MC3T3-E1 cells were well spread on the surface of the MgF2-coated Mg-1Ca alloy, while few cells were observed on uncoated Mg-1Ca alloy samples. In summary, MgF2 coating showed beneficial effects on the corrosion resistance and thus improved cell response of the Mg-1Ca alloy effectively and should be a good surface modification method for other biomedical magnesium alloys.

KW - Mg-1Ca alloy

KW - biocompatibility

KW - corrosion resistance

KW - magnesium fluoride

KW - surface modification

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JO - Surface and Interface Analysis

JF - Surface and Interface Analysis

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ER -

Corrosion resistance and cytotoxicity of a MgF₂ coating on biomedical Mg-1Ca alloy via vacuum evaporation deposition method

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Keywords

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