Department of Chemistry, University of New Brunswick, Fredericton N.B., E3B 6E2, Canada.
Dalton Trans. 2011 Jun 14;40(22):5865-80. doi: 10.1039/c0dt01251c. Epub 2011 May 9.
Attempts to prepare the hitherto unknown Se(6)(2+) cation by the reaction of elemental selenium and Ag[A] (A = Sb(OTeF(5))(6), Al(OC(CF(3))(3))(4)) in SO(2) led to the formation of [(OSO)Ag(Se(6))Ag(OSO)]Sb(OTeF(5))(6)1 and [(OSO)(2)Ag(Se(6))Ag(OSO)(2)]Al(OC(CF(3))(3))(4)2a. 1 could only be prepared by using bromine as co-oxidant, however, bulk 2b (2a with loss of SO(2)) was accessible from Ag[Al(OC(CF(3))(3))(4)] and grey Se in SO(2) (chem. analysis). The reactions of Ag[MF(6)] (M = As, Sb) and elemental selenium led to crystals of 1/∞{Ag(Se(6))Ag(2)(SbF(6))(3)} 3 and {1/∞Ag(Se(6))Ag}AsF(6)4. Pure bulk 4 was best prepared by the reaction of Se(4)AsF(6), silver metal and elemental selenium. Attempts to prepare bulk 1 and 3 were unsuccessful. 1-4 were characterized by single-crystal X-ray structure determinations, 2b and 4 additionally by chemical analysis and 4 also by X-ray powder diffraction, FT-Raman and FT-IR spectroscopy. Application of the PRESTO III sequence allowed for the first time (109)Ag MAS NMR investigations of 4 as well as AgF, AgF(2), AgMF(6) and {1/∞Ag(I(2))}[MF(6)] (M = As, Sb). Compounds 1 and 2a/b, with the very large counter ions, contain isolated Ag(Se(6))Ag heterocubane units consisting of a Se(6) molecule bicapped by two silver cations (local D(3d) sym). 3 and 4, with the smaller anions, contain close packed stacked arrays of Se(6) rings with Ag(+) residing in octahedral holes. Each Ag(+) ion coordinates to three selenium atoms of each adjacent Se(6) ring. 4 contains Ag(Se(6))(+) stacks additionally linked by Ag(2)(+) into a two dimensional network. 3 features a remarkable 3-dimensional Ag(2)(SbF(6))(3) anion held together by strong Sb-FAg contacts between the component Ag(+) and SbF(6) ions. The hexagonal channels formed by the Ag(2)(SbF(6))(3) anions are filled by stacks of Ag(Se(6))(+) cations. Overall 1-4 are new members of the rare class of metal complexes of neutral main group elemental clusters, in which the main group element is positively polarized due to coordination to a metal ion. Notably, 1 to 4 include the commonly metastable Se(6) molecule as a ligand. The structure, bonding and thermodynamics of 1 to 4 were investigated with the help of quantum chemical calculations (PBE0/TZVPP and (RI-)MP2/TZVPP, in part including COSMO solvation) and Born-Fajans-Haber-cycle calculations. From an analysis of all the available data it appears that the formation of the usually metastable Se(6) molecule from grey selenium is thermodynamically driven by the coordination to the Ag(+) ions.
试图通过元素硒和 Ag[A](A = Sb(OTeF(5))(6), Al(OC(CF(3))(3))(4))在 SO(2)中的反应来制备迄今为止未知的 Se(6)(2+)阳离子,导致形成[(OSO)Ag(Se(6))Ag(OSO)]Sb(OTeF(5))(6)1 和[(OSO)(2)Ag(Se(6))Ag(OSO)(2)]Al(OC(CF(3))(3))(4)2a。然而,只有使用溴作为共氧化剂才能制备 1,而大块 2b(失去 SO(2)的 2a)可以通过 Ag[Al(OC(CF(3))(3))(4)]和灰色硒在 SO(2)中获得(化学分析)。Ag[MF(6)](M = As,Sb)和元素硒的反应导致晶体 1/∞{Ag(Se(6))Ag(2)(SbF(6))(3)}3 和{1/∞Ag(Se(6))Ag}AsF(6)4 的形成。纯大块 4 最好通过 Se(4)AsF(6)、银金属和元素硒的反应来制备。制备大块 1 和 3 的尝试均未成功。1-4 通过单晶 X 射线结构测定、2b 和 4 另外通过化学分析和 4 还通过 X 射线粉末衍射、FT-Raman 和 FT-IR 光谱进行了表征。应用 PRESTO III 序列首次允许对 4 以及 AgF、AgF(2)、AgMF(6)和{1/∞Ag(I(2))}[MF(6)](M = As,Sb)进行(109)Ag MAS NMR 研究。化合物 1 和 2a/b,由于其非常大的抗衡离子,包含由两个银阳离子双帽的孤立的Ag(Se(6))Ag杂核单元(局部 D(3d)对称)。3 和 4,由于其较小的阴离子,包含硒(6)环的紧密堆积堆叠阵列,Ag(+)位于八面体孔中。每个 Ag(+)离子与相邻 Se(6)环的三个硒原子配位。4 包含Ag(Se(6))(+)堆叠,此外还通过 Ag(2)(+)连接成二维网络。3 具有一个显著的 3 维Ag(2)(SbF(6))(3)阴离子,通过组成 Ag(+)和SbF(6)离子之间的强 Sb-FAg 接触保持在一起。由Ag(2)(SbF(6))(3)阴离子形成的六边形通道被Ag(Se(6))(+)阳离子的堆叠填充。总体而言,1-4 是金属配合物中性主族元素簇的稀有类别中的新成员,其中主族元素由于与金属离子配位而被正极化。值得注意的是,1 到 4 包括通常亚稳的 Se(6)分子作为配体。通过量子化学计算(PBE0/TZVPP 和(RI-)MP2/TZVPP,部分包括 COSMO 溶剂化)和 Born-Fajans-Haber 循环计算,研究了 1 至 4 的结构、键合和热力学。从所有可用数据的分析来看,通常亚稳的 Se(6)分子从灰色硒中的形成在热力学上是由与 Ag(+)离子的配位驱动的。
