Processing of Ca-P Ceramics, Surface Characteristics and Biological Performance

S. Cazalbou; C. Bastié; G. Chatainier; N. Theilgaard; N. Svendsen; R. Martinetti; L. Dolcini; J. Hamblin; G. Stewart; L. Di Silvio; N. Gurav; R. Quarto; S. Overgaard; B. Zippor; A. Lamure; C. Combes; C. Rey

Processing of Ca-P Ceramics, Surface Characteristics and Biological Performance

S. Cazalbou, C. Bastié, G. Chatainier, N. Theilgaard, N. Svendsen, R. Martinetti, L. Dolcini, J. Hamblin, G. Stewart, L. Di Silvio, N. Gurav, R. Quarto, S. Overgaard, B. Zippor, A. Lamure, C. Combes, C. Rey

A.O.U. San Martino - IST, Istituto Nazionale Ricerca sul Cancro (GENOVA)

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

Abstract

Surface pollution by Mg and carbon has been identified by X-Ray Photoelectron Spectroscopy (XPS) analysis on monophasic (100% stoichiometric hydroxyapatite) or biphasic (70% hydroxyapatite, 30% β-tricalcium phosphate) ceramics obtained by sintering of Ca-P powder of standard purity. Magnesium was the main impurity, although it is present only as traces in synthesised Ca-P powders, it concentrates on the surface of the ceramic during the sintering process due to its poor solubility in HA. Carbon pollution is common on all materials and generally assigned to the adsorption of atmospheric volatile organic compounds, although other types of pollution may occur. These surface species alter the surface energy of the ceramics which has been shown to be related to cell adhesion, The change in surface composition and physical properties can interfere with the sintering process as well as with the biological behaviour of the ceramics and a special effort should be made to control these events at all levels from processing to handling, storage and packaging.

Original language	English
Pages (from-to)	833-836
Number of pages	4
Journal	Key Engineering Materials
Volume	254-256
Publication status	Published - 2004

Keywords

Apatite
Surface energy
Tri-calcium phosphate
XPS

ASJC Scopus subject areas

Ceramics and Composites
Chemical Engineering (miscellaneous)

Cite this

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title = "Processing of Ca-P Ceramics, Surface Characteristics and Biological Performance",

abstract = "Surface pollution by Mg and carbon has been identified by X-Ray Photoelectron Spectroscopy (XPS) analysis on monophasic (100% stoichiometric hydroxyapatite) or biphasic (70% hydroxyapatite, 30% β-tricalcium phosphate) ceramics obtained by sintering of Ca-P powder of standard purity. Magnesium was the main impurity, although it is present only as traces in synthesised Ca-P powders, it concentrates on the surface of the ceramic during the sintering process due to its poor solubility in HA. Carbon pollution is common on all materials and generally assigned to the adsorption of atmospheric volatile organic compounds, although other types of pollution may occur. These surface species alter the surface energy of the ceramics which has been shown to be related to cell adhesion, The change in surface composition and physical properties can interfere with the sintering process as well as with the biological behaviour of the ceramics and a special effort should be made to control these events at all levels from processing to handling, storage and packaging.",

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author = "S. Cazalbou and C. Basti{\'e} and G. Chatainier and N. Theilgaard and N. Svendsen and R. Martinetti and L. Dolcini and J. Hamblin and G. Stewart and {Di Silvio}, L. and N. Gurav and R. Quarto and S. Overgaard and B. Zippor and A. Lamure and C. Combes and C. Rey",

year = "2004",

language = "English",

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pages = "833--836",

journal = "Key Engineering Materials",

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T1 - Processing of Ca-P Ceramics, Surface Characteristics and Biological Performance

AU - Cazalbou, S.

AU - Bastié, C.

AU - Chatainier, G.

AU - Theilgaard, N.

AU - Svendsen, N.

AU - Martinetti, R.

AU - Dolcini, L.

AU - Hamblin, J.

AU - Stewart, G.

AU - Di Silvio, L.

AU - Gurav, N.

AU - Quarto, R.

AU - Overgaard, S.

AU - Zippor, B.

AU - Lamure, A.

AU - Combes, C.

AU - Rey, C.

PY - 2004

Y1 - 2004

N2 - Surface pollution by Mg and carbon has been identified by X-Ray Photoelectron Spectroscopy (XPS) analysis on monophasic (100% stoichiometric hydroxyapatite) or biphasic (70% hydroxyapatite, 30% β-tricalcium phosphate) ceramics obtained by sintering of Ca-P powder of standard purity. Magnesium was the main impurity, although it is present only as traces in synthesised Ca-P powders, it concentrates on the surface of the ceramic during the sintering process due to its poor solubility in HA. Carbon pollution is common on all materials and generally assigned to the adsorption of atmospheric volatile organic compounds, although other types of pollution may occur. These surface species alter the surface energy of the ceramics which has been shown to be related to cell adhesion, The change in surface composition and physical properties can interfere with the sintering process as well as with the biological behaviour of the ceramics and a special effort should be made to control these events at all levels from processing to handling, storage and packaging.

AB - Surface pollution by Mg and carbon has been identified by X-Ray Photoelectron Spectroscopy (XPS) analysis on monophasic (100% stoichiometric hydroxyapatite) or biphasic (70% hydroxyapatite, 30% β-tricalcium phosphate) ceramics obtained by sintering of Ca-P powder of standard purity. Magnesium was the main impurity, although it is present only as traces in synthesised Ca-P powders, it concentrates on the surface of the ceramic during the sintering process due to its poor solubility in HA. Carbon pollution is common on all materials and generally assigned to the adsorption of atmospheric volatile organic compounds, although other types of pollution may occur. These surface species alter the surface energy of the ceramics which has been shown to be related to cell adhesion, The change in surface composition and physical properties can interfere with the sintering process as well as with the biological behaviour of the ceramics and a special effort should be made to control these events at all levels from processing to handling, storage and packaging.

KW - Apatite

KW - Surface energy

KW - Tri-calcium phosphate

KW - XPS

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JO - Key Engineering Materials

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Processing of Ca-P Ceramics, Surface Characteristics and Biological Performance

Abstract

Keywords

ASJC Scopus subject areas

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