铀
四面体
上部结构
结晶学
材料科学
钻石
格子(音乐)
金刚石立方
多孔性
金属有机骨架
六方晶系
化学
纳米技术
晶体结构
吸附
物理
有机化学
冶金
复合材料
热力学
声学
作者
Peng Li,Nicolaas A. Vermeulen,Christos D. Malliakas,Diego A. Gómez‐Gualdrón,Ashlee J. Howarth,B. Layla Mehdi,Alice Dohnálková,Nigel D. Browning,M. O’Keeffe,Omar K. Farha
出处
期刊:Science
[American Association for the Advancement of Science]
日期:2017-04-21
卷期号:356 (6338): 624-627
被引量:354
标识
DOI:10.1126/science.aam7851
摘要
Bottom-up construction of highly intricate structures from simple building blocks remains one of the most difficult challenges in chemistry. We report a structurally complex, mesoporous uranium-based metal-organic framework (MOF) made from simple starting components. The structure comprises 10 uranium nodes and seven tricarboxylate ligands (both crystallographically nonequivalent), resulting in a 173.3-angstrom cubic unit cell enclosing 816 uranium nodes and 816 organic linkers-the largest unit cell found to date for any nonbiological material. The cuboctahedra organize into pentagonal and hexagonal prismatic secondary structures, which then form tetrahedral and diamond quaternary topologies with unprecedented complexity. This packing results in the formation of colossal icosidodecahedral and rectified hexakaidecahedral cavities with internal diameters of 5.0 nanometers and 6.2 nanometers, respectively-ultimately giving rise to the lowest-density MOF reported to date.
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