RWTH Aachen University, Institute of Inorganic Chemistry, JARA-SOFT (Researching Soft Matter), and I3TM, 52074 Aachen, Germany.
Dalton Trans. 2018 Aug 21;47(31):10382-10387. doi: 10.1039/c8dt01192c. Epub 2018 Jun 20.
Proteins are a powerful scaffold for the organisation of inorganic components in the solid state. Due to the defined atomic structure of the protein scaffold, organometallic complexes and nanoparticles can be arranged with high precision. Moreover, crystalline protein materials are porous and enable confinement of inorganic components on the nanoscale. In this Frontier article, we summarize current strategies for the synthesis of bioinorganic materials and highlight recent examples for application of these materials. Future perspectives are discussed such as tunability of material properties through protein design, and the possibility to produce protein materials in a sustainable manner.
蛋白质是固体中无机成分组织的有力支架。由于蛋白质支架具有明确的原子结构,可以高精度地排列有机金属配合物和纳米粒子。此外,晶体蛋白质材料是多孔的,可以在纳米尺度上限制无机成分。在这篇前沿文章中,我们总结了生物无机材料合成的当前策略,并强调了这些材料的最新应用实例。讨论了未来的展望,例如通过蛋白质设计来调整材料性能的可能性,以及以可持续的方式生产蛋白质材料的可能性。
