Planes Ophélie M, Jansze Suzanne M, Scopelliti Rosario, Fadaei-Tirani Farzaneh, Severin Kay
Institut des Sciences et Ingénierie Chimiques, École Polytechnique Fédérale de Lausanne (EPFL), CH-1015 Lausanne, Switzerland.
Inorg Chem. 2020 Oct 5;59(19):14544-14548. doi: 10.1021/acs.inorgchem.0c02358. Epub 2020 Sep 22.
Nanometer-sized polycarboxylate ligands are interesting building blocks for metallasupramolecular chemistry, but access to these compounds is often limited by complicated synthetic pathways. Here, we describe a simple two-step protocol, which allows preparing linear and bent dicarboxylate ligands with lengths of up to 3 nm from commercially available compounds. The ligands are prepared by iron-templated polycondensation reactions involving arylboronic acids and nioxime. The final products contain two iron clathrochelate complexes and two terminal carboxyphenylene groups. To demonstrate that the new ligands are suitable for the construction of more complex molecular nanostructures, we have prepared a Cu-based metal-organic polyhedron, which represents the largest ML cage described so far.
纳米尺寸的聚羧酸盐配体是金属超分子化学中有趣的构建单元,但获得这些化合物往往受到复杂合成途径的限制。在此,我们描述了一种简单的两步法,该方法能够从市售化合物制备长度达3纳米的线性和弯曲二羧酸配体。这些配体通过涉及芳基硼酸和偕二肟的铁模板缩聚反应制备。最终产物包含两个铁笼形螯合物配合物和两个末端羧基苯基团。为了证明新配体适用于构建更复杂的分子纳米结构,我们制备了一种基于铜的金属有机多面体,它代表了迄今为止所描述的最大的金属配体笼。
