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含有σ-硅基和硅烯配体的开壳层镧系元素(II+)或(III+)配合物:合成、结构及键合分析

Open-shell lanthanide(II+) or -(III+) complexes bearing σ-silyl and silylene ligands: synthesis, structure, and bonding analysis.

作者信息

Zitz Rainer, Arp Henning, Hlina Johann, Walewska Małgorzata, Marschner Christoph, Szilvási Tibor, Blom Burgert, Baumgartner Judith

机构信息

†Institut für Anorganische Chemie, Technische Universität Graz, Stremayrgasse 9, 8010 Graz, Austria.

‡Institut für Chemie, Universität Graz, Stremayrgasse 9, 8010 Graz, Austria.

出版信息

Inorg Chem. 2015 Apr 6;54(7):3306-15. doi: 10.1021/ic502991p. Epub 2015 Mar 10.

DOI:10.1021/ic502991p
PMID:25756230
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4389698/
Abstract

Complexes featuring lanthanide (Ln)-Si bonds represent a highly neglected research area. Herein, we report a series of open-shell Ln(II+) and Ln(III+) complexes bearing σ-bonded silyl and base-stabilized N-heterocyclic silylene (NHSi) ligands. The reactions of the Ln(III+) complexes Cp3Ln (Ln = Tm, Ho, Tb, Gd; Cp = cyclopentadienide) with the 18-crown-6 (18-cr-6)-stabilized 1,4-oligosilanyl dianion [(18-cr-6)KSi(SiMe3)2SiMe2SiMe2Si(SiMe3)2K(18-cr-6)] (1) selectively afford the corresponding metallacyclopentasilane salts Cp2Ln({Si(SiMe3)2SiMe2}2)K2(18-cr-6)2Cp [Ln = Tm (2a), Ho (2b), Tb (2c), Gd (2d)]. Complexes 2a-2d represent the first examples of structurally characterized Tm, Ho, Tb, and Gd complexes featuring Ln-Si bonds. Strikingly, the analogous reaction of 1 with the lighter element analogue Cp3Ce affords the acyclic product Cp3CeSi(SiMe3)2SiMe2SiMe2Si(SiMe3)2-Cp3Ce2K(18-cr-6) (3) as the first example of a complex featuring a Ce-Si bond. In an alternative synthetic approach, the aryloxy-functionalized benzamidinato NHSi ligand Si(OC6H4-2-tBu){(NtBu)2CPh} (4a) and the alkoxy analogue Si(OtBu){(NtBu)2CPh} (4b) were reacted with Cp2Sm(OEt2), affording, by OEt2 elimination, the corresponding silylene complexes, both featuring Sm(II+) centers: Cp2Sm ← :Si(O-C6H4-2-tBu){(NtBu)2CPh} (6) and Cp*2Sm ← :Si(OtBu){(NtBu)2CPh} (5). Complexes 5 and 6 are the first four-coordinate silylene complexes of any f-block element to date. All complexes were fully characterized by spectroscopic means and by single-crystal X-ray diffraction analysis. In the series 2a-2d, a linear correlation was observed between the Ln-Si bond lengths and the covalent radii of the corresponding Ln metals. Moreover, in complexes 5 and 6, notably long Sm-Si bonds are observed, in accordance with a donor-acceptor interaction between Si and Sm [5, 3.4396(15) Å; 6, 3.3142(18) Å]. Density functional theory calculations were carried out for complexes 2a-2d, 5, and 6 to elucidate the bonding situation between the Ln(II+) or Ln(III+) centers and Si. In particular, a decrease in the Mayer bond order (MBO) of the Ln-Si bond is observed in the series 2a-2d in moving from the lighter to the heavier lanthanides (Tm = 0.53, Ho = 0.62, Tb = 0.65, and Gd = 0.75), which might indicate decreasing covalency in the Ln-Si bond. In accordance with the long bond lengths observed experimentally in complexes 5 and 6, comparatively low MBOs were determined for both silylene complexes (5, 0.24; 6, 0.25) .

摘要

含有镧系元素(Ln)-硅键的配合物是一个被高度忽视的研究领域。在此,我们报道了一系列带有σ键合硅烷基和碱稳定的N-杂环硅烯(NHSi)配体的开壳层Ln(II+)和Ln(III+)配合物。Ln(III+)配合物Cp3Ln(Ln = Tm、Ho、Tb、Gd;Cp = 环戊二烯基)与18-冠-6(18-cr-6)稳定的1,4-低聚硅烷基二价阴离子[(18-cr-6)KSi(SiMe3)2SiMe2SiMe2Si(SiMe3)2K(18-cr-6)](1)反应,选择性地得到相应的金属环戊硅烷盐Cp2Ln({Si(SiMe3)2SiMe2}2)K2(18-cr-6)2Cp [Ln = Tm(2a)、Ho(2b)、Tb(2c)、Gd(2d)]。配合物2a - 2d代表了具有Ln - Si键的结构表征的Tm、Ho、Tb和Gd配合物的首例。引人注目的是,1与较轻元素类似物Cp3Ce的类似反应得到无环产物Cp3CeSi(SiMe3)2SiMe2SiMe2Si(SiMe3)2 - Cp3Ce2K(18-cr-6)(3),这是具有Ce - Si键的配合物的首例。在另一种合成方法中,芳氧基官能化的苯甲脒基NHSi配体Si(OC6H4 - 2 - tBu){(NtBu)2CPh}(4a)和烷氧基类似物Si(OtBu){(NtBu)2CPh}(4b)与Cp2Sm(OEt2)反应,通过消除OEt2,得到相应的硅烯配合物,二者均具有Sm(II+)中心:Cp2Sm ← :Si(O - C6H4 - 2 - tBu){(NtBu)2CPh}(6)和Cp*2Sm ← :Si(OtBu){(NtBu)2CPh}(5)。配合物5和6是迄今为止任何f族元素的首例四配位硅烯配合物。所有配合物均通过光谱手段和单晶X射线衍射分析进行了全面表征。在2a - 2d系列中,观察到Ln - Si键长与相应Ln金属的共价半径之间存在线性关系。此外,在配合物5和6中,观察到明显较长的Sm - Si键,这与Si和Sm之间的供体 - 受体相互作用一致[5,3.4396(15) Å;6,3.3142(18) Å]。对配合物2a - 2d、5和6进行了密度泛函理论计算,以阐明Ln(II+)或Ln(III+)中心与Si之间的键合情况。特别是,在2a - 2d系列中,从较轻的镧系元素到较重的镧系元素(Tm = 0.53、Ho = 0.62、Tb = 0.65和Gd = 0.75),观察到Ln - Si键的迈耶键级(MBO)降低,这可能表明Ln - Si键的共价性降低。与在配合物5和6中实验观察到的长键长一致,确定两种硅烯配合物的MBO相对较低(5,0.24;6,0.25)。

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