Department of Chemistry and Biotechnology, School of Engineering, The University of Tokyo, Hongo, Bunkyo-ku, Tokyo, 113-8656, Japan.
Small. 2015 Oct;11(38):5126. doi: 10.1002/smll.201570236.
Biomineral-inspired hybrids forming helically ordered structures are developed by T. Kato and co-workers on page 5127. These helical hybrids consist of liquid-crystalline chitin and CaCO3 . They resemble the structures of crustacean cuticles such as the exoskeleton of a lobster or crayfish. These hybrids are formed through CaCO3 crystallization on the liquidcrystalline chitin templates. Polymer-stabilized amorphous CaCO3 is incorporated into the liquid-crystalline chitin templates. This approach is useful for the development of new hierarchical hybrid materials from abundant natural resources.
加藤等人在第 5127 页上开发了受生物矿化启发的形成螺旋有序结构的杂化材料。这些螺旋杂化材料由液晶甲壳素和 CaCO3 组成。它们类似于甲壳类动物外骨骼(如龙虾或螃蟹的外壳)的结构。这些杂化材料是通过在液晶甲壳素模板上进行 CaCO3 结晶形成的。聚合物稳定的无定形 CaCO3 被掺入液晶甲壳素模板中。这种方法可用于从丰富的自然资源中开发新型分级杂化材料。