硅质海绵骨针矿化机制及仿生应用研究进展 |
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引用本文: | 王晓红,汪顺锋,甘露,Ute Schlo?acher,周峰,Klaus P. Jochum,Matthias Wiens,Heinz C. Schr?der,Werner E.G. Müller. 硅质海绵骨针矿化机制及仿生应用研究进展[J]. 地球学报, 2011, 32(2): 129-141. DOI: 10.3975/cagsb.2011.02.01 |
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作者姓名: | 王晓红 汪顺锋 甘露 Ute Schlo?acher 周峰 Klaus P. Jochum Matthias Wiens Heinz C. Schr?der Werner E.G. Müller |
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作者单位: | 中国地质科学院国家地质实验测试中心;中国地质科学院国家地质实验测试中心;中国地质科学院国家地质实验测试中心;德国美因茨大学医学中心;德国美因茨大学医学中心;德国马-普化学所;德国美因茨大学医学中心;德国美因茨大学医学中心;德国美因茨大学医学中心 |
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基金项目: | 科技部国际合作项目“硅质海绵骨针矿化机制及仿生研究”(编号: 2008DFA00980); 国土资源部公益性专项“生物-硅化仿生新矿物材料应用研究”(编号: 201011005-6); 德国教育与研究部德中合作实验室项目(编号: CHN 09/1AP); 欧盟研究委员会(ERC)高级领军人才项目(编号: 268476 BIOSILICA) |
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摘 要: | 硅质海绵动物是地球上最简单、最古老的多细胞动物,它经几百万年的自然进化成就了适应自然和接近完美的技术蓝图,为人类利用纳米生物技术仿生合成生物无机矿物材料提供了一种崭新的节能和"环境友好"技术,在光纤、微电子和生物医学材料等领域具有广阔的仿生应用前景.生长在深海1000 m以下水深的单根海绵动物的根须骨针长达3 m,是世...
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关 键 词: | 海绵动物 六放海绵动物 根须骨针 生物硅 硅蛋白 生物硅化 |
Advances in Research on Siliceous Sponge Spicules: Novel Insight into the Understanding of Biomineralization Mechanisms and Bionic Applications |
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Affiliation: | National Research Center for Geoanalysis, Chinese Academy of Geological Sciences;National Research Center for Geoanalysis, Chinese Academy of Geological Sciences;National Research Center for Geoanalysis, Chinese Academy of Geological Sciences;Medical Center of the University of Mainz;Medical Center of the University of Mainz;Max-Planck Institute for Chemistry;Medical Center of the University of Mainz;Medical Center of the University of Mainz;Medical Center of the University of Mainz |
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Abstract: | Siliceous sponges are the simplest and oldest multi-cellular animals on the Earth. They achieved a perfect technical blueprint during their million years of evolution. A new energy-saving and environmentally friendly technology has been developed by nature for human applications allowing the production of novel bio-inorganic mineral materials using nano-biotechnological approaches. There is a wide application prospect in the fields of optical fibers, microelectronics, biomedical materials and some further areas. Monorhaphis chuni lives in the deep sea over 1000 m in depth. Its giant basal spicule is growing to a length of 3 m and is therefore the largest bio-silica structure on the Earth. It is a highly suitable model for the study of bio-silicification mechanisms and for their bionic applications. In this paper, the authors systematically summarize the research progress in these giant basal spicules on the following topics: structure, composition, mechanical properties, optophysical properties, biochemical properties and molecular biological basis, biomineralization mechanism as well as bionic applications in biomedicine. |
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Keywords: | Sponge Hexactinellida giant basal spicule bio-silica silicatein biosilicification |
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