Stabilization of Amorphous Calcium Carbonate in Inorganic Silica-Rich Environments
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- 作者:Matthias Kellermeier ; Emilio Melero-Garca ; Fabian Glaab ; Regina Klein ; Markus Drechsler ; Reinhard Rachel ; Juan Manuel Garca-Ruiz ; Werner Kunz
- 刊名:Journal of the American Chemical Society
- 出版年:2010
- 出版时间:December 22, 2010
- 年:2010
- 卷:132
- 期:50
- 页码:17859-17866
- 全文大小:398K
- 年卷期:v.132,no.50(December 22, 2010)
- ISSN:1520-5126
文摘
In biomineralization, living organisms carefully control the crystallization of calcium carbonate to create functional materials and thereby often take advantage of polymorphism by stabilizing a specific phase that is most suitable for a given demand. In particular, the lifetime of usually transient amorphous calcium carbonate (ACC) seems to be thoroughly regulated by the organic matrix, so as to use it either as an intermediate storage depot or directly as a structural element in a permanently stable state. In the present study, we show that the temporal stability of ACC can be influenced in a deliberate manner also in much simpler purely abiotic systems. To illustrate this, we have monitored the progress of calcium carbonate precipitation at high pH from solutions containing different amounts of sodium silicate. It was found that growing ACC particles provoke spontaneous polymerization of silica in their vicinity, which is proposed to result from a local decrease of pH nearby the surface. This leads to the deposition of hydrated amorphous silica layers on the ACC grains, which arrest growth and alter the size of the particles. Depending on the silica concentration, these skins have different thicknesses and exhibit distinct degrees of porosity, therefore impeding to varying extents the dissolution of ACC and energetically favored transformation to calcite. Under the given conditions, crystallization of calcium carbonate was slowed down over tunable periods or completely prevented on time scales of years, even when ACC coexisted side by side with calcite in solution.