Oliver Seiler scite author profile

The neutral pentacoordinate silicon(IV) complexes 8 and 9 with an SiO2N3 skeleton and the neutral hexacoordinate silicon(IV) complex 10.1/2 CH3CN with an SiO4N2 skeleton were synthesized, starting from tetra(cyanato-N)silane or tetra(thiocyanato-N)silane. Compounds 8 and 9 contain one tridentate dianionic ligand derived from 4-[(2-hydroxyphenyl)amino]pent-3-en-2-one and two monodentate singly charged cyanato-N or thiocyanato-N ligands bound to the silicon(IV) coordination center, whereas the silicon(IV) center of 10 is coordinated by two of these tridentate dianionic ligands. All compounds were characterized by single-crystal X-ray diffraction and solid-state and solution NMR spectroscopy. To get more information about the stereochemistry of the compounds studied, the experimental investigations were complemented by computational studies.

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New Zwitterionic Spirocyclic λ⁵Si-Silicates with an SiX₄C Skeleton (X = S, O) Containing Two Ligands of the Dithiolato(2−) or Diolato(2−) Type: Synthesis, Structure, and Bonding Situation

Bertermann

Biller

Kaupp

et al. 2003

Organometallics

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Reaction of trimethoxy(morpholinomethyl)silane (7) with lithium aluminum hydride yielded (morpholinomethyl)silane (8). Treatment of 8 with ethane-1,2-dithiol (molar ratio 1:2) in MeCN afforded bis[ethane-1,2-dithiolato(2−)](morpholiniomethyl)silicate (5; isolated as 5·MeCN). Reaction of 7 with ethane-1,2-diol (molar ratio 1:2) in MeCN yielded the oxygen analogue bis[ethane-1,2-diolato(2−)](morpholiniomethyl)silicate (6). Single-crystal X-ray diffraction studies showed that the Si-coordination polyhedra of 5·MeCN and 6 are distorted trigonal bipyramids. Compounds 5·MeCN and 6 were additionally characterized by solid-state VACP/MAS NMR experiments (13C, 29Si). The structural investigations were complemented by quantum-chemical studies of the structure, bonding, and 29Si NMR chemical shift tensors of 5 (SiS4C skeleton) and 6 (SiO4C skeleton).

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Hexacoordinate Silicon(IV) Complexes Containing Thiocyanato‐N Ligands — Syntheses, Structural Characterization, and Computational Studies

Seiler

Bertermann

Buggisch

et al. 2003

Zeitschrift anorg allge chemie

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The hexacoordinate silicon(IV) complexes [NEt4]2[Si(NCS)6] (2), [K(18‐crown‐6)]2[Si(NCS)6]·2CH3CN (3·2CH3CN), and cis‐[(acac)2Si(NCS)2] (cis‐4; acac = acetylacetonato‐O, O) were synthesized, starting from Si(NCS)4 (1). Compounds 1, 2, 3·2CH3CN, and cis‐4 were structurally characterized in the solid state (13C, 15N (cis‐4 only), and 29Si MAS NMR; crystal structure analyses) and in solution (1H, 13C, and 29Si NMR; cis‐4 only). The experimental investigations were complemented by computational studies (RI‐MP2 geometry optimizations of 1, [Si(NCS)6]2—, cis‐4, and trans‐4; calculations of the 29Si NMR chemical shifts using the optimized structures).

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Synthesis and Structural Characterization of Novel Neutral Hexacoordinate Silicon(IV) Complexes with SiO₂N₄ Skeletons Containing Cyanato-N or Thiocyanato-N Ligands

et al. 2005

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A series of novel hexacoordinate silicon(IV) complexes with an SiO2N4 skeleton (compounds (OC-6-12)-3, (OC-6-12)-4, (OC-6-12)-5, (OC-6-12)-6, and (OC-6-2'2)-7) were synthesized, starting from Si(NCO)4 or Si(NCS)4. These compounds contain (i) two bidentate O,N-chelate ligands (or one tetradentate O,N,N,O-chelate ligand) derived from 4-aminopent-3-en-2-ones of the formula type Me-C(NRH)=CH-C(O)-Me (R = organyl) and (ii) two monodentate cyanato-N or thiocyanato-N ligands. Formally, the bidentate singly negatively charged O,N-chelate ligands (tetradentate 2-fold negatively charged O,N,N,O-chelate ligand) behave as ligands of the imino-enolato type. In addition, the adduct trans-8 was synthesized by reaction of Si(NCS)4 with 2 molar equiv of Me-C(Ni-PrH)=CH-C(O)-Me. This hexacoordinate silicon(IV) complex contains (i) four monodentate thiocyanato-N ligands and (ii) two neutral monodentate ligands of the iminio-enolato type. All compounds synthesized were structurally characterized by single-crystal X-ray diffraction and solid-state and solution NMR spectroscopy. To get more information about the stereochemistry of these compounds, the experimental investigations were complemented by computational studies.

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Oliver Seiler

Synthesis and Structural Characterization of Neutral Higher‐Coordinate Silicon(iv) Complexes with Tridentate Dianionic Chelate Ligands

New Zwitterionic Spirocyclic λ⁵Si-Silicates with an SiX₄C Skeleton (X = S, O) Containing Two Ligands of the Dithiolato(2−) or Diolato(2−) Type: Synthesis, Structure, and Bonding Situation

Hexacoordinate Silicon(IV) Complexes Containing Thiocyanato‐N Ligands — Syntheses, Structural Characterization, and Computational Studies

Synthesis and Structural Characterization of Novel Neutral Hexacoordinate Silicon(IV) Complexes with SiO₂N₄ Skeletons Containing Cyanato-N or Thiocyanato-N Ligands

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Oliver Seiler

Synthesis and Structural Characterization of Neutral Higher‐Coordinate Silicon(iv) Complexes with Tridentate Dianionic Chelate Ligands

New Zwitterionic Spirocyclic λ5Si-Silicates with an SiX4C Skeleton (X = S, O) Containing Two Ligands of the Dithiolato(2−) or Diolato(2−) Type: Synthesis, Structure, and Bonding Situation

Hexacoordinate Silicon(IV) Complexes Containing Thiocyanato‐N Ligands — Syntheses, Structural Characterization, and Computational Studies

Synthesis and Structural Characterization of Novel Neutral Hexacoordinate Silicon(IV) Complexes with SiO2N4 Skeletons Containing Cyanato-N or Thiocyanato-N Ligands

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New Zwitterionic Spirocyclic λ⁵Si-Silicates with an SiX₄C Skeleton (X = S, O) Containing Two Ligands of the Dithiolato(2−) or Diolato(2−) Type: Synthesis, Structure, and Bonding Situation

Synthesis and Structural Characterization of Novel Neutral Hexacoordinate Silicon(IV) Complexes with SiO₂N₄ Skeletons Containing Cyanato-N or Thiocyanato-N Ligands