Stannylium Ions, a Tin(II) Arene Complex, and a Tin Dication Stabilized by Weakly Coordinating Anions

Schäfer, André; Winter, Florian; Saak, Wolfgang; Haase, Detlev; Pöttgen, Rainer; Müller, Thomas

doi:10.1002/chem.201101938

Cited by 53 publications

(49 citation statements)

References 49 publications

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“…What is interesting about the anion/ cation relationship here, which is not seen in 1 (but is relevant to the antimony compound 7, below), is the orientation of the phenyl ring attached to P(2) [C(19)-C(24)] with respect to tin ( Figure 4). This ring sits above tin with Sn-C distances of 3.647(4)-4.043(4) Å and a Sn-ring centroid separation of 3.585 Å, distances that reflect a much weaker π-interaction than seen in examples where a more cationic tin is bonded to aromatic rings [usually, but not exclusively, solvent molecules (Probst et al, 1990) in [MX 4 ] -salts, M = B, X = C 6 F 5 (Schafer et al, 2011), M = Al, X = Cl (Rodesiler et al, 1975;Weininger et al, 1979;Schmidbaur et al, 1989aSchmidbaur et al, ,b,c, 1990bSchmidbaur et al, , 1991Frank, 1990a,b), M = Ga, X = Cl (Frank, 1990c)], where the Sn-ring centroid is ca. 2.6 Å.…”

Section: Cu-sn Bimetallic Systemsmentioning

confidence: 99%

Synthesis and structures of Cu-Cl-M adducts (M=Zn, Sn, Sb)

Kociok‐Köhn

Mahon

Molloy

et al. 2014

Main Group Metal Chemistry

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The novel bimetallic adducts [(Ph 3 P) 2 CuCl] 2 . have been synthesized from combinations of R 3 P, CuCl and one of ZnCl 2 , SnCl 2 or SbCl 3 , and their structures were determined. [(Me 3 P) 2 Cu] + [HPMe 3 ] 2 + [Sb 2 Cl 9 ] 3-(8) and [(Me 3 P) 4 Cu] + [(Me 3 P) 2 Sb 2 Cl 7 ] -(9) have been isolated as minor by-products from the reaction of Me 3 P, CuCl and SbCl 3 , and their structures were also determined.

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Section: Cu-sn Bimetallic Systemsmentioning

confidence: 99%

Synthesis and structures of Cu-Cl-M adducts (M=Zn, Sn, Sb)

Kociok‐Köhn

Mahon

Molloy

et al. 2014

Main Group Metal Chemistry

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“…Until now, the results of topological analysis of tincontaining compounds are limited to two hypothetical stannatranes [22], the complex [Sn(C 7 H 8 ) 3 ] 2+ dication [23], the low-coordinated tin Sn 2 (OCH 2 CH 2 NMe 2 )(OPh) dimer [20], hexacoordinated tin(IV) [24] and phenyl (triphenylstannyl)telluride [25,26]. According to the AIM theory, information on chemical bonding can be obtained analyzing the local minima, maxima, and saddle points of the electron density ρ(r) function.…”

Section: Introductionmentioning

confidence: 99%

Understanding the structure of salicyl hydrazone metallocomplexes: crystal structure, AIM and Hirshfeld surface analysis of trichloro-(N-salicylidenebenzoylhydrazinato-N,O,O′)-tin(IV)

et al. 2015

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The results of detailed experimental and theoretical study of chemical intra-and intermolecular bonding of salicyl hydrazone complex with SnCl 3 are described. The chemical bonding pattern in the crystal and isolated molecule is described in terms of Bader's "Atoms in Molecules" (AIM) theory. Analysis of AIM charges has revealed that amount of charge transferred from ligand to SnCl 3 moiety is equal to ≈ 0.3 e that leads to significant redistribution of bond lengths as compared to other tin(IV) salicyl hydrazonates. Comparison of geometry and characteristics of electron density distribution indicates the weakening of coordination Sn-O and Sn-N bonds in isolated molecule in comparison with crystal up to 10 kcal/mol. This effect was explained by the intermolecular H···Cl bonding. According to the Hirshfeld surface analysis, these interactions have the most pronounced contribution to the crystal packing energy. The significance of the present article lies in both the detailed inspection of the crystal packing effect on the coordination bonds of the tin(IV) atom and intermolecular interactions governing the supramolecular self-assembly of hydrogen-bonded chains by means of specific interactions and π···π stacking.

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“…75 Utilizing the same synthetic strategy, Driess et al prepared another remarkable chlorosilyliumylidene derivative 13 by the reaction of bidentate bis-NHC ligand with NHC·SiCl 2 (Scheme 9). 55 The 29 Si NMR resonances due to the three-coordinate Si nuclei in 12 + and 13 + were observed at δ= -3.3 and -58.4 ppm, 80 respectively. The upfield shift can also be attributed to the stronger electron donation from bis-NHC and iminophosphorane ligands.…”

Section: Donor Stabilized Si(ii) Cationmentioning

confidence: 99%

“…20 These results kick-started the chemistry of low-valent Si(II) cations although 80 the existence of a mono-coordinated Si(II) cations has yet to be demonstrated.…”

Section: Introductionmentioning

confidence: 99%

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Cations and dications of heavier group 14 elements in low oxidation states

et al. 2015

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Cations and dications of heavier group 14 elements in their low oxidation state have received widespread attention in recent years. The journey started with the isolation of a series of cations of the composition [(C5Me5)E:](+) [E = Si-Pb], followed by the more recent isolation of a Ge(ii) dication encapsulated within a cryptand, a carbodiphosphorane stabilized [GeCl](+) monocation with a two coordinate Ge atom, Si(ii) cations and dications stabilized by N-heterocyclic carbenes (NHCs), which highlights the ongoing growth and interest in the chemistry of tetrel(ii) cations. This is presumably because the central atom (E) in these compounds contains two or three unoccupied valence orbitals as well as holds a lone pair of electrons. Such an electronic description represents ambiphilicity, which is of great interest for catalysis. The successful synthesis of divalent group 14 cations requires new synthetic strategies based on the sterically demanding neutral or monoanionic ligands, utilization of counter anions, and solvents with low nucleophilicity in order to minimize the degree of interactions with the cations. An alternative approach for the realization of divalent cations of group 14 elements is their coordination to the transition metals. This synthetic approach was successfully applied for the isolation of a range of transition metal coordinated divalent cations of group 14 elements. Apart from arousing academic interest some of these cations have found application as activators in the Ziegler-Natta polymerization of alkenes.

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Stannylium Ions, a Tin(II) Arene Complex, and a Tin Dication Stabilized by Weakly Coordinating Anions

Cited by 53 publications

References 49 publications

Synthesis and structures of Cu-Cl-M adducts (M=Zn, Sn, Sb)

Synthesis and structures of Cu-Cl-M adducts (M=Zn, Sn, Sb)

Understanding the structure of salicyl hydrazone metallocomplexes: crystal structure, AIM and Hirshfeld surface analysis of trichloro-(N-salicylidenebenzoylhydrazinato-N,O,O′)-tin(IV)

Cations and dications of heavier group 14 elements in low oxidation states

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