Hostname: page-component-78c5997874-ndw9j Total loading time: 0 Render date: 2024-11-05T13:30:04.484Z Has data issue: false hasContentIssue false
  • English
  • Français

Apatite Nucleation on Low Porosity Silicon in Acellular Simulated Body Fluids

Published online by Cambridge University Press:  15 February 2011

L T Canham  and
C L Reeves
L T Canham
Affiliation:
DRA Malvem, St Andrews Road, Malvern, Worcestershire. WR14 3PS, UK
C L Reeves
Affiliation:
DRA Malvem, St Andrews Road, Malvern, Worcestershire. WR14 3PS, UK
Get access

Abstract

The response of a range of porous Si films to acellular simulated body fluids has been monitored by SEM, EDX and FTIR analyses. Quite low levels of porosity are shown here to induce hydroxyapatite growth both on top of the film, and even on neighbouring areas of bulk Si, which in isolation have no such effect. The in-vitro demonstration of hydroxyapatite nucleation by a porous semiconductor could provide further insight into the phenomenon of bioactivity and help realise a broader range of bioactive materials.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 414: Symposium Z – Thin Films and Surfaces for Bioactivity and Biomedical Applications , 1995 , 189
Copyright
Copyright © Materials Research Society 1996

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

(1) Canham, L T. Adv Mater 7, 1033 (1995).Google Scholar
(2) Canham, L T. Appi Phys Lett 57, 1046 (1990).Google Scholar
(3) Light Emission from Silicon. Edited by Iyer, S S, Collins, R T, Canham, L T. Mater Res Soc Proc 256 (1992); Microcrystalline Semiconductors: Materials Science and Devices. Edited by P M Fauchet, C C Tsai, L T Canham, I Shimizu, Y Aoyagi. Mater Res Soc Proc 283 (1993); Silicon-Based Optoelectronic Materials. Edited by M A Tischler, R T Collins, M L W Thewalt, G Abstreiter. Mat Res Soc Proc, Vol.298 (1993); Microcrystalline and Nanocrystalline Semiconductors. Edited by R W Collins, C C Tsai, M Hirose, F Koch, L Brus. Mater Res Soc Proc 358 (1995).Google Scholar
(4) Gregg, S J and Sing, K S W. Adsorption, Surface Area and Porosity (Academic Press New York 1982).Google Scholar
(5) Kokubo, T, Kushitani, H, Sakka, S, Kitsigi, T, Yamamuro, T. J Biomed Mat Res 24, 721 (1999).Google Scholar
(6) Kokubo, T, Kushitani, H, Ohtruki, C, Sakka, S, Yamamuro, T. J Mat Sci: Mat in Medicine 3, 79 (1992).Google Scholar
(7) Li, P, Ohtsuki, C, Kokubo, T, Nakarishi, K, Soga, N, Nakamura, T, Yamamuro, T. J Appl Biomat 4, 221 (1993).Google Scholar
(8) Li, P, Ohtsuki, C, Kokubo, T, Nakanishi, K, Soga, N, Groot, K de. J Biomed Mat Res 28, 7 (1994).Google Scholar
(9) Pereira, M M, Clark, A E, Hench, L L. J Am Ceram Soc 78, 2463 (1995).Google Scholar
(10) Kokubo, T. J Non Cryst Solids 120, 138 (1990).Google Scholar
(11) Cotell, C M. Appl Surf Sci 69, 140 (1993).Google Scholar
(12) Wang, P E, Chaki, T K. J Mat Sci: Mat in Medicine 6, 94 (1995).Google Scholar
(13) Anderson, J P, Nilsson, S C, Rajachar, R M, Logan, R, Weissman, N A, Martin, D C. MRS Proc Vol.330, 171 (1994).Google Scholar