The Silylium Ion (R3Si+) Problem: Effect of Alkyl Substituents R

Xie, Zuowei; Bau, Robert; Benesi, Alan J.; Reed, Christopher A.

doi:10.1021/om00008a045

Cited by 102 publications

(147 citation statements)

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“…The average Ge-C bond length is 1.943 Å . In the corresponding Si compound, 23 the sum of the C-Si-C angles is 349.0°and the Si-Br bond lengthening is ca. 0.23 Å .…”

Section: Resultsmentioning

confidence: 99%

R₃E⁺ Carborane Salts of the Heavier Group 14 Elements: E = Ge, Sn, and Pb

et al. 2010

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The synthetic and structural chemistry of catalytically useful trialkylsilylium salts with weakly coordinating carborane anions, R 3 Si(CHB 11 X 11 ), has been extended to the heavier group 14 elements. Et 3 Ge(CHB 11 H 5 Br 5 ) was prepared from Et 3 GeH and trityl CHB 11 H 5 Br 6 -. Its X-ray crystal structure shows ion-like character very similar to its Si congener. The heavier element analogues, Et 3 E(CHB 11 H 5 Br 6 ) (E = Sn, Pb), were prepared by chloride ion abstraction from Et 3 SnCl and Et 3 PbCl, respectively, using Et 3 Si(CHB 11 H 5 Br 6 ). Their crystal structures differ from those of the four-coordinate lighter elements by adopting five-coordinate trigonal-bipyramidal stereochemistries, reflecting the periodic table transition of these elements from semi-metals to metals. The carborane anions are weak, bridging, axial ligands connecting trigonal Et 3 E þ cation-like moieties in polymeric chain structures. When the less coordinating CHB 11 Cl 11 -anion is used, excess germane competes with the carborane anion for coordination to Ge and a salt of the new hydride-bridged cation [Et 3 Ge-H-GeEt 3 ] þ can be isolated. It has a distinctive νGeHGe IR band at ca. 1740 cm -1 analogous to the 1875 cm -1 band of the [Et 3 Si-H-Si-Et 3 ] þ cation. Comparable chemistry is not observed for the Sn and Pb congeners.

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“…The average Ge-C bond length is 1.943 Å . In the corresponding Si compound, 23 the sum of the C-Si-C angles is 349.0°and the Si-Br bond lengthening is ca. 0.23 Å .…”

Section: Resultsmentioning

confidence: 99%

R₃E⁺ Carborane Salts of the Heavier Group 14 Elements: E = Ge, Sn, and Pb

et al. 2010

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“…[30] To probe the stability of a ferrocenyl-substituted silicon cation in the presence of such stabilizing substituents the synthesis and ring-opening of fcSiiPr 2 (3 c) were undertaken.…”

Section: Simentioning

confidence: 99%

Ring‐Opening Protonolysis of Sila[1]ferrocenophanes as a Route to Stabilized Silylium Ions

Bourke

MacLachlan

Lough

et al. 2005

Chemistry A European J

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The ring-opening reactions of a series of sila[1]ferrocenophanes with protic acids of anions with various degrees of noncoordinating character have been explored. Ferrocenyl-substituted silyl triflates FcSiMe2OTf (5 a) and Fc(3)SiOTf (5 b) (Fc=(eta5-C5H4)Fe(eta5-C5H5)) were synthesized by means of HOTf-induced ring-opening protonolysis of strained sila[1]ferrocenophanes fcSiMe2 (3 a) and fcSiFc2 (3 b) (fc=(eta5-C5H4)2Fe). Reaction of 3 a and 3 b with HBF4 yielded fluorosubstituted ferrocenylsilanes FcSiMe2F (6 a) and Fc3SiF (6 b) and suggested the intermediacy of a highly reactive silylium ion capable of abstracting F- from the [BF4]- ion. Generation of the solvated silylium ions [FcSiMe2THF]+ (7a+), [Fc3SiTHF]+ (7b+) and [FcSiiPr2OEt2]+ (7c+) at low temperatures, by reaction of the corresponding sila[1]ferrocenophanes (3 a, 3 b, and fcSiiPr2 (3 c), respectively) with H(OEt2)(S)TFPB (S=Et2O or THF; TFPB=tetrakis[3,5-bis(trifluoromethyl)phenyl]borate) was monitored by using low-temperature 1H, 13C, and 29Si NMR spectroscopy. In situ reaction of 7a+, 7b+, and 7c+ with excess pyridine generated [FcSiMe2py]+ (8a+), [Fc3Sipy]+ (8b+), and [FcSiiPr2py]+ (8c+), respectively, as observed by 1H, 13C, and 29Si NMR spectroscopy. A preparative-scale reaction of 3 b with H(OEt2)(THF)TFPB at -60 degrees C and subsequent addition of excess pyridine gave isolable red crystals of 8b-[TFPB]CHCl3, which were characterized by 1H and 29Si NMR spectroscopy as well as by single-crystal X-ray diffraction.

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“…Surprisingly, the closest approach to planarity was found for the tri-iso-propyl derivatives, rather than for the tri-tert-butyl species. The authors also concluded that hyperconjugative stabilization of the cationic silicon centre is not negligible, although it is less pronounced than in carbocations 90 . The hexachloro carborane anion was found to be the least coordinating and, based on structural, energetic and NMR criteria, more than 50% silicenium ion character was assigned to the i-Pr 3 Si υC (Cl 6 CB 11 H 6 ) υ complex 91 21.…”

Section: Interactions With Lewis Bases: Binary and Ternary Complexesmentioning

confidence: 98%

“…Reed's group reported the X-ray structures of trialkyl-silicenium ions R 3 Si C complexed to low-nucleophilic hexahalo carborane anions 90,91 . The authors varied systematically both the alkyl substituents R (R D Me, Et, i-Pr and t-Bu) and the halogen substitution of the X 6 CB 11 H 6 (X D Cl, Br, I) counterions.…”

Section: Interactions With Lewis Bases: Binary and Ternary Complexesmentioning

confidence: 99%

“…The authors varied systematically both the alkyl substituents R (R D Me, Et, i-Pr and t-Bu) and the halogen substitution of the X 6 CB 11 H 6 (X D Cl, Br, I) counterions. The degree of silicenium ion character in the R 3 Si C moiety was estimated from the sum of the bond angles around silicon, which should reach the ideal 360°value in a free tri-coordinate silicenium ion 90 . Surprisingly, the closest approach to planarity was found for the tri-iso-propyl derivatives, rather than for the tri-tert-butyl species.…”

Section: Interactions With Lewis Bases: Binary and Ternary Complexesmentioning

confidence: 99%

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Silicenium Ions: Quantum Chemical Computations

Maerker

Schleyer

1998

The Chemistry of Organic Silicon Compounds

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The Silylium Ion (R3Si+) Problem: Effect of Alkyl Substituents R

Cited by 102 publications

References 10 publications

R₃E⁺ Carborane Salts of the Heavier Group 14 Elements: E = Ge, Sn, and Pb

R₃E⁺ Carborane Salts of the Heavier Group 14 Elements: E = Ge, Sn, and Pb

Ring‐Opening Protonolysis of Sila[1]ferrocenophanes as a Route to Stabilized Silylium Ions

Silicenium Ions: Quantum Chemical Computations

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The Silylium Ion (R3Si+) Problem: Effect of Alkyl Substituents R

Cited by 102 publications

References 10 publications

R3E+ Carborane Salts of the Heavier Group 14 Elements: E = Ge, Sn, and Pb

R3E+ Carborane Salts of the Heavier Group 14 Elements: E = Ge, Sn, and Pb

Ring‐Opening Protonolysis of Sila[1]ferrocenophanes as a Route to Stabilized Silylium Ions

Silicenium Ions: Quantum Chemical Computations

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Product

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R₃E⁺ Carborane Salts of the Heavier Group 14 Elements: E = Ge, Sn, and Pb

R₃E⁺ Carborane Salts of the Heavier Group 14 Elements: E = Ge, Sn, and Pb