Electrochemically induced bioactivity of porous silicon functionalized by acetylene

In order to improve the bioactivity of porous silicon chemically functionalized by acetylene (PSi–C) and stimulate the calcium‐phosphorous (hydroxyapatite) deposition on this material from a simulated body fluid, electrochemical oxidation of the PSi–C templates has been employed. The initial functio...

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Published in:Physica status solidi. A, Applications and materials science Applications and materials science, 2009-06, Vol.206 (6), p.1333-1338
Main Authors: Pastor, Ester, Salonen, Jarno, Lehto, Vesa-Pekka, Matveeva, Eugenia
Format: Article
Language:English
Subjects:
61.43.Gt
68.43.Fg
78.30.Ly
81.05.Rm
81.65.Mq
82.45.Vp
87.85.J
Biological and medical sciences
Medical sciences
Radiotherapy. Instrumental treatment. Physiotherapy. Reeducation. Rehabilitation, orthophony, crenotherapy. Diet therapy and various other treatments (general aspects)
Technology. Biomaterials. Equipments. Material. Instrumentation
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Summary:In order to improve the bioactivity of porous silicon chemically functionalized by acetylene (PSi–C) and stimulate the calcium‐phosphorous (hydroxyapatite) deposition on this material from a simulated body fluid, electrochemical oxidation of the PSi–C templates has been employed. The initial functionalization by acetylene was done at 500 °C in a N2 + C2H2 gas stream of 1:1 ratio for 15 minutes; further electrochemical oxidation was performed in 80% phosphoric acid. The morphology and chemical composition of initial and oxidized porous structures were studied by the high resolution SEM technique and FTIR spectroscopy. Initial chemical functionalization leads to a very stable (practically bio‐inert) material that after electrochemical oxidation becomes bioactive. We observed that the hydroxyapatite phase has been homogeneously deposited on the electrochemically oxidized PSi–C material immersed in the SBF of Kokubo formulae at 36.5 °C just after two weeks. The layer of hydroxyapatite grown on the surface after 30 days of immersion was compact, crystalline and as thick as 5 μm. (© 2009 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)
ISSN:1862-6300
1862-6319
DOI:10.1002/pssa.200881061