柔性矿物：具有超强弯曲强度的自组装方解石刺。

Flexible minerals: self-assembled calcite spicules with extreme bending strength.

机构信息

Institut für Anorganische Chemie und Analytische Chemie, Johannes Gutenberg-Universität, Mainz, Germany.

出版信息

Science. 2013 Mar 15;339(6125):1298-302. doi: 10.1126/science.1216260.

Abstract

Silicatein-α is responsible for the biomineralization of silicates in sponges. We used silicatein-α to guide the self-assembly of calcite "spicules" similar to the spicules of the calcareous sponge Sycon sp. The self-assembled spicules, 10 to 300 micrometers (μm) in length and 5 to 10 μm in diameter, are composed of aligned calcite nanocrystals. The spicules are initially amorphous but transform into calcite within months, exhibiting unusual growth along [100]. They scatter x-rays like twinned calcite crystals. Whereas natural spicules evidence brittle failure, the synthetic spicules show an elastic response, which greatly enhances bending strength. This remarkable feature is linked to a high protein content. With nano-thermogravimetric analysis, we measured the organic content of a single spicule to be 10 to 16%. In addition, the spicules exhibit waveguiding properties even when they are bent.

摘要

硅蛋白-α负责海绵体中硅酸盐的生物矿化。我们使用硅蛋白-α引导方解石“骨针”的自组装，这些骨针类似于钙质海绵 Sycon sp 的骨针。自组装的骨针长 10 至 300 微米（μm），直径 5 至 10 微米，由排列整齐的方解石纳米晶体组成。这些骨针最初是无定形的，但在几个月内转化为方解石，表现出沿[100]方向的异常生长。它们像孪晶方解石晶体一样散射 X 射线。虽然天然骨针表现出脆性破坏，但合成骨针表现出弹性响应，这大大提高了弯曲强度。这一显著特征与高蛋白质含量有关。通过纳米热重分析，我们测量了单个骨针的有机含量为 10 至 16%。此外，即使骨针弯曲，它们也表现出波导性能。

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柔性矿物：具有超强弯曲强度的自组装方解石刺。

Flexible minerals: self-assembled calcite spicules with extreme bending strength.

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