Cyanido Antimonate(III) and Bismuthate(III) Anions

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• 作者：Sören Arlt ; Jörg Harloff ; Axel Schulz ; Alrik Stoffers ; Alexander Villinger
• 刊名：Inorganic Chemistry
• 出版年：2016
• 出版时间：December 5, 2016
• 年：2016
• 卷：55
• 期：23
• 页码：12321-12328
• 全文大小：476K
• ISSN：1520-510X

文摘

The reaction of in situ generated E(CN)₃ (E = Sb, Bi) with different amounts of [Ph₄P]CN and [PPN]CN ([PPN]⁺ = [Ph₃P–N–PPh₃]⁺) was studied, affording salts bearing the novel ions [E(CN)₅]^2–, [Bi₂(CN)₁₁]^5–, and [Bi(CN)₆]^3–. The valence lone pair of electrons on the central atom of antimony and bismuth(III) compounds can be either sterically active in an unsymmetric fashion (three shorter bonds + x longer bonds) or symmetric (with rather long averaged bonds). In the presence of weakly coordinating cations (e.g., [Ph₄P]⁺ and [PPN]⁺), the solid-state structures of salts with [E(CN)₅]^2– anions contain well-separated cations and monomeric anions, which display a sterically active lone pair and a monomeric square-based pyramidal (pseudo-octahedral) structure. The [Bi(CN)₅·MeCN]^2– acetonitrile adduct ion exhibits a strongly distorted octahedral structure, which is better understood as a [5 + 1] coordination. The intriguing [Ph₄P]₆[Bi₂(CN)₁₁]CN salt consists of separated cations and anions as well as well-separated [Bi₂(CN)₁₁]^5– and CN^– ions. The structure of the molecular [Bi₂(CN)₁₁]^5– ion can be described as two square-based-pyramidal [Bi(CN)₅]^2– fragments connected by a disordered bridging CN^– ion, thereby leading to a distorted-octahedral environment around the two Bi centers. Here the steric effect of the lone pair is much less pronounced but still present.