Synthesis, Isolation and Crystal Structures of the Metalated Ylides [Cy3P-C-SO2Tol]M (M = Li, Na, K).

IF 1.1 4区 化学 Q4 CHEMISTRY, INORGANIC & NUCLEAR
Heidar Darmandeh, Thorsten Scherpf, Kai-Stephan Feichtner, Christopher Schwarz, Viktoria H Gessner
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引用次数: 5

Abstract

The preparation and isolation of the metalated ylides [Cy3PCSO2Tol]M ( Cy1-M) (with M = Li, Na, K) are reported. In contrast to its triphenylphosphonium analogue the synthesis of Cy1-M revealed to be less straight forward. Synthetic routes to the phosphonium salt precursor Cy1-H2 via different methods revealed to be unsuccessful or low-yielding. However, nucleophilic attack of the ylide Cy3P = CH2 at toluenesulfonyl fluoride under basic conditions proved to be a high-yielding method directly leading to the ylide Cy1-H. Metalation to the yldiides was finally achieved with strong bases such as nBuLi, NaNH2, or BnK. In the solid state, the lithium compound forms a tetrameric structure consisting of a (C-S-O-Li)4 macrocycle, which incorporates an additional molecule of lithium iodide. The potassium compound forms a C 4-symmetric structure with a (K4O4)2 octahedral prism as central structural motif. Upon deprotonation the P-C-S linkage undergoes a remarkable contraction typical for metalated ylides.

金属化Ylides [cy3c - so2tol]M (M = Li, Na, K)的合成、分离和晶体结构
报道了金属化化合物[Cy3PCSO2Tol]M (Cy1-M) (M = Li, Na, K)的制备和分离。与三苯基磷类似物相比,Cy1-M的合成显示出不那么直接。通过不同的方法合成磷盐前体Cy1-H2的路线显示不成功或产量低。然而,在基本条件下,ylide Cy3P = CH2对甲苯磺酰氟的亲核攻击被证明是一种高产的方法,直接导致ylide Cy1-H。最后用nBuLi、NaNH2或BnK等强碱进行金属化。在固体状态下,锂化合物形成由(C-S-O-Li)4大环组成的四聚体结构,其中包含一个额外的碘化锂分子。钾化合物形成以(K4O4)2八面体棱镜为中心结构基序的c4对称结构。在去质子化后,P-C-S键经历了典型的金属化环的显著收缩。
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来源期刊
Zeitschrift fur Anorganische und Allgemeine Chemie
Zeitschrift fur Anorganische und Allgemeine Chemie 化学-无机化学与核化学
CiteScore
2.60
自引率
14.30%
发文量
308
审稿时长
1 months
期刊介绍: ZAAC is an international scientific journal which publishes original papers on new relevant research results from all areas of inorganic chemistry, solid state chemistry, and co-ordination chemistry. The contributions reflect the latest findings in these research areas and serve the development of new materials, such as super-hard materials, electrical superconductors, or intermetallic compounds. Up-to-date physical methods for the characterization of new chemical compounds and materials are also described.
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