Department of Chemistry, University of Cambridge, Cambridge CB2 1EW, United Kingdom.
Proc Natl Acad Sci U S A. 2013 Jun 25;110(26):10531-5. doi: 10.1073/pnas.1302683110. Epub 2013 Jun 10.
Here we describe the phenomenon of symmetry breaking within a series of M4L6 container molecules. These containers were synthesized using planar rigid bis-bidentate ligands based on 2,6-substituted naphthalene, anthracene, or anthraquinone spacers and Fe(II) ions. The planarity of the ligand spacer favors a stereochemical configuration in which each cage contains two metal centers of opposite handedness to the other two, which would ordinarily result in an S4-symmetric, achiral configuration. Reduction of symmetry from S4 to C1 is achieved by the spatial offset between each ligand's pair of binding sites, which breaks the S4 symmetry axis. Using larger Cd(II) or Co(II) ions instead of Fe(II) resulted, in some cases, in the observation of dynamic motion of the symmetry-breaking ligands in solution. NMR spectra of these dynamic complexes thus reflected apparent S4 symmetry owing to rapid interconversion between energetically degenerate, enantiomeric C1-symmetric conformations.
在这里,我们描述了一系列 M4L6 容器分子中对称破缺的现象。这些容器是使用基于 2,6-取代萘、蒽或蒽醌间隔基的平面刚性双齿配体和 Fe(II)离子合成的。配体间隔基的平面性有利于一种立体化学构型,其中每个笼包含两个金属中心,它们的手性与其他两个相反,这通常会导致 S4 对称、非手性构型。通过每个配体的一对结合位点之间的空间偏移来实现从 S4 到 C1 的对称破缺,从而打破 S4 对称轴。在某些情况下,使用更大的 Cd(II)或 Co(II)离子代替 Fe(II)会导致对称破缺配体在溶液中动态运动的观察。因此,这些动态配合物的 NMR 光谱由于能量简并的、对映体 C1 对称构象之间的快速互变而反映出明显的 S4 对称性。