摘要
Structuring overmany length scales is a design strategy widely used in Nature to create materials with unique functional properties. We here present a comprehensive analysis of an adult sea urchin spine, and in revealing a complex, hierarchical structure, showhow Nature fabricates a material which diffracts as a single crystal of calcite and yet fractures as a glassy material. Each spine comprises a highly oriented array of Mg-calcite nanocrystals in which amorphous regions and macromolecules are embedded. It is postulated that this mesocrystalline structure forms via the crystallization of a dense array of amorphous calcium carbonate (ACC) precursor particles. A residual surface layer of ACC and/or macromolecules remains around the nanoparticle units which creates the mesocrystal structure and contributes to the conchoidal fracture behavior. Nature's demonstration of how crystallization of an amorphous precursor phase can create a crystalline material with remarkable properties therefore provides inspiration for a novel approach to the design and synthesis of synthetic composite materials.
| 源语言 | 英语 |
|---|---|
| 页(从-至) | 3699-3704 |
| 页数 | 6 |
| 期刊 | Proceedings of the National Academy of Sciences of the United States of America |
| 卷 | 109 |
| 期 | 10 |
| DOI | |
| 出版状态 | 已出版 - 6 3月 2012 |
| 已对外发布 | 是 |