Neufeld Roman, Michel Reent, Herbst-Irmer Regine, Schöne Ralf, Stalke Dietmar
Institut für Anorganische Chemie, Georg-August-Universität, Tammannstrasse 4, 37077, Göttingen, Germany.
Chemistry. 2016 Aug 22;22(35):12340-6. doi: 10.1002/chem.201600833. Epub 2016 Jul 26.
Alkali metal 1,1,1,3,3,3-hexamethyldisilazide (MHMDSs) are one of the most utilised weakly nucleophilic Brønsted bases in synthetic chemistry and especially in natural product synthesis. Like lithium organics, they aggregate depending on the employed donor solvents. Thus, they show different reactivity and selectivity as a function of their aggregation and solvation state. To date, monomeric LiHMDS with monodentate donor bases was only characterised in solution. Since the first preparation of LiHMDS in 1959 by Wannagat and Niederprüm, all efforts to crystallise monomeric LiHMDS in the absence of chelating ligands failed. Herein, we present ammonia adducts of LiHMDS, NaHMDS, KHMDS, RbHMDS and CsHMDS with unprecedented aggregation motifs: 1) The hitherto missing monomeric key compound in the LiHMDS aggregation architectures. Monomeric crystal structures of trisolvated LiHMDS (1) and NaHMDS (2), showing unique intermolecular hydrogen bonds, 2) the unprecedented tetrasolvated KHMDS (3) and RbHMDS (4) dimers and 3) the disolvated CsHMDS (5) dimer with very close intermolecular Si-CH3 ⋅⋅⋅Cs s-block "agostic" interactions have been prepared and characterised by single-crystal X-ray structure analysis.
碱金属1,1,1,3,3,3-六甲基二硅氮化物(MHMDSs)是合成化学尤其是天然产物合成中最常用的弱亲核布朗斯特碱之一。与有机锂化合物一样,它们会根据所使用的给体溶剂发生聚集。因此,它们表现出不同的反应性和选择性,这是其聚集和溶剂化状态的函数。迄今为止,具有单齿给体碱的单体LiHMDS仅在溶液中得到表征。自1959年Wannagat和Niederprüm首次制备LiHMDS以来,所有在没有螯合配体的情况下结晶单体LiHMDS的努力均告失败。在此,我们展示了LiHMDS、NaHMDS、KHMDS、RbHMDS和CsHMDS的氨加合物,它们具有前所未有的聚集模式:1)LiHMDS聚集结构中迄今缺失的单体关键化合物。三溶剂化LiHMDS(1)和NaHMDS(2)的单体晶体结构,显示出独特的分子间氢键;2)前所未有的四溶剂化KHMDS(3)和RbHMDS(4)二聚体;3)具有非常紧密的分子间Si-CH3⋅⋅⋅Cs s区“agostic”相互作用的二溶剂化CsHMDS(5)二聚体,这些均已通过单晶X射线结构分析进行了制备和表征。
