Andor Nadj scite author profile

The addition compound Cl(3)SiSiCl(3)·TMEDA was formed quantitatively by treatment of Cl(3)SiSiCl(3) with tetramethylethylenediamine (TMEDA) in pentane at room temperature. The crystal structure of Cl(3)SiSiCl(3)·TMEDA displays one tetrahedrally and one octahedrally bonded Si atom (monoclinic, P2(1)/n). (29)Si CP/MAS NMR spectroscopy confirms this structure. Density functional theory (DFT) calculations have shown that the structure of the meridional isomer of Cl(3)SiSiCl(3)·TMEDA is 6.3 kcal lower in energy than that of facial coordinate species. Dissolving of Cl(3)SiSiCl(3)·TMEDA in CH(2)Cl(2) resulted in an immediate reaction by which oligochlorosilanes Si(n)Cl(2n) (n = 4, 6, 8, 10; precipitate) and the Cl(-)-complexed dianions [Si(n)Cl(2n+2)](2-) (n = 6, 8, 10, 12; CH(2)Cl(2) extract) were formed. The constitutions of these compounds were confirmed by MALDI mass spectrometry. Additionally, single crystals of [Me(3)NCH(2)CH(2)NMe(2)](2)[Si(6)Cl(14)] and [Me(3)NCH(2)CH(2)NMe(2)](2)[Si(8)Cl(18)] were obtained from the CH(2)Cl(2) extract. We found that Cl(3)SiSiCl(3)·TMEDA reacts with MeCl, forming MeSiCl(3) and the products that had been formed in the reaction of Cl(3)SiSiCl(3)·TMEDA with CH(2)Cl(2). X-ray structure analysis indicates that the structures of [Me(3)NCH(2)CH(2)NMe(2)](2)[Si(6)Cl(14)] (monoclinic, P2(1)/n) and [Me(3)NCH(2)CH(2)NMe(2)](2)[Si(8)Cl(18)] (monoclinic, P2(1)/n) contain dianions adopting an "inverse sandwich" structure with inverse polarity and [Me(3)NCH(2)CH(2)NMe(2)](+) as countercations. Single crystals of SiCl(4)·TMEDA (monoclinic, Cc) could be isolated by thermolysis reaction of Cl(3)SiSiCl(3)·TMEDA (50 °C) in tetrahydrofuran (THF).

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Supersilylated Tetraphosphene Derivatives M₂[t-Bu₃SiPPPPSi-t-Bu₃] (M = Li, Na, Rb, Cs) and Ba[t-Bu₃SiPPPPSi-t-Bu₃]: Reactivity and Cis−Trans Isomerization

Lorbach

Nadj

Tüllmann

et al. 2008

Inorg. Chem.

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The tetraphosphenediides M2[t-Bu3SiPPPPSi-t-Bu3] (M = Li, Na, K) were accessible by the reaction of P4 with the silanides M[Si-t-Bu3] (M = Li, Na, K), whereas M2[t-Bu3SiPPPPSi-t-Bu3] (M = Rb, Cs) were obtained from the reaction of RbCl and CsF with Na2[t-Bu3SiPPPPSi-t-Bu3]. 31P NMR experiments revealed that, in tetrahydrofuran, Na2[t-Bu3SiPPPPSi-t-Bu3] adopts a cis configuration. However, treatment of Na2[t-Bu3SiPPPPSi-t-Bu3] with 18-crown-6 led to the formation of [Na(18-crown-6)(thf)2]2[t-Bu3SiPPPPSi-t-Bu3] that possesses a trans configuration in the solid state. The ion-separated tetraphosphenediide [Na(18-crown-6)(thf)2]2[t-Bu3SiPPPPSi-t-Bu3] was analyzed using X-ray crystallography (monoclinic, space group P2(1)/n). The reaction of Na2[t-Bu3SiPPPPSi-t-Bu3] with BaI2 gave, conveniently, the corresponding barium derivative Ba[t-Bu3SiPPPPSi-t-Bu3]. However, addition of AuI to the tetraphosphenediide Na2[t-Bu3SiPPPPSi-t-Bu3] yielded 1,3-diiodo-2,4-disupersilyl-cyclotetraphosphane (monoclinic, space group C2/c), which is an isomer of disupersilylated diiodotetraphosphene. A further isomeric derivative of disupersilylated tetraphosphene, the 3,5-disupersilyl-2,2-di-tert-butyl-2-stanna-bicyclo[2.1.0(1,4)]pentaphosphane, which possesses a phosphanylcyclotriphosphane structure, was obtained by the reaction of Na2[t-Bu3SiPPPPSi-t-Bu3] with t-Bu2SnCl2. Calculations revealed that the acyclic cis and trans isomers of the dianions [HPPPPH]2- and [H3SiPPPPSiH3]2- are thermodynamically more stable than the cyclic isomers with a phosphanylcyclotriphosphane or a cyclotetraphosphane structure. However, the neutral cyclic isomers of H4P4 and H2(H3Si)2P4 represent more stable structures than the cis- and trans-tetraphosphenes H2P-P=P-PH2 and (H3Si)HP-P=P-PH(SiH3), respectively. In addition, the molecular orbitals (MOs) of the silylated cis- and trans-tetraphosphene dianions of [H3SiPPPPSiH3]2-, which are comparable with those of the ion-separated supersilylated tetraphosphenediide [t-Bu3SiPPPPSi-t-Bu3]2-, show the highest occupied antibonding pi*MO (HOMO). The HOMO is represented by the (p(z)-p(z)+p(z)-p(z)) pi* MO.

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ChemInform Abstract: Unexpected Disproportionation of Tetramethylethylenediamine‐Supported Perchlorodisilane Cl₃SiSiCl₃.

et al. 2012

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Unexpected Disproportionation of Tetramethylethylenediamine-Supported Perchlorodisilane Cl3SiSiCl3. -Reactions of (I) with tetramethylethylenediamine are studied and the crystal structures of (II), (III), (IV), and (VI) are determined by single crystal XRD. Compounds (II) and (IV) crystallize in the monoclinic space group P21/n with Z = 4, (III) in the monoclinic space group P21/n with Z = 2, and (VI) in the monoclinic space group Cc with Z = 16. The crystal structure of (II) displays one tetrahedrally and one octahedrally bonded Si atom. -(TILLMANN, J.; MEYER-WEGNER, F.; NADJ, A.; BECKER-BALDUS, J.; SINKE, T.; BOLTE, M.; HOLTHAUSEN, M. C.; WAGNER, M.; LERNER*, H.-W.; Inorg. Chem. 51 (2012) 15, 8599-8606, http://dx.

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Unraveling the Amine‐Induced Disproportionation Reaction of Perchlorinated Silanes—A DFT Study

Schweizer

Meyer

Nadj

et al. 2016

Chemistry A European J

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A detailed quantum-chemical study on the amine-induced disproportionation reaction of perchlorinated silanes to neo-Si5 Cl12 is reported. The key intermediate in the resulting mechanistic scenario is a dichlorosilylene amine adduct, which is in tune with recent experimental findings. Yet, at variance with the generally accepted notion of silicon-chain growth by concerted silylene insertion into Si-Cl bonds of lower silanes, the formation of neo-Si5 Cl12 follows more complex pathways. The reactivity is dominated by the Lewis-base character of the dichlorosilylene amine adduct and characterized by three elementary steps that bear close resemblance to the key elementary steps identified earlier for the chloride-induced disproportionation of Si2 Cl6 . NBO and QTAIM analyses of the key reactive species SiCl2 ⋅NMe3 and SiCl3 (-) provide a rationale for these striking similarities.

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Andor Nadj

The Perchlorinated Silanes Si₂Cl₆ and Si₃Cl₈ as Sources of SiCl₂

Unexpected Disproportionation of Tetramethylethylenediamine-Supported Perchlorodisilane Cl₃SiSiCl₃

Supersilylated Tetraphosphene Derivatives M₂[t-Bu₃SiPPPPSi-t-Bu₃] (M = Li, Na, Rb, Cs) and Ba[t-Bu₃SiPPPPSi-t-Bu₃]: Reactivity and Cis−Trans Isomerization

ChemInform Abstract: Unexpected Disproportionation of Tetramethylethylenediamine‐Supported Perchlorodisilane Cl₃SiSiCl₃.

Unraveling the Amine‐Induced Disproportionation Reaction of Perchlorinated Silanes—A DFT Study

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Andor Nadj

The Perchlorinated Silanes Si2Cl6 and Si3Cl8 as Sources of SiCl2

Unexpected Disproportionation of Tetramethylethylenediamine-Supported Perchlorodisilane Cl3SiSiCl3

Supersilylated Tetraphosphene Derivatives M2[t-Bu3SiPPPPSi-t-Bu3] (M = Li, Na, Rb, Cs) and Ba[t-Bu3SiPPPPSi-t-Bu3]: Reactivity and Cis−Trans Isomerization

ChemInform Abstract: Unexpected Disproportionation of Tetramethylethylenediamine‐Supported Perchlorodisilane Cl3SiSiCl3.

Unraveling the Amine‐Induced Disproportionation Reaction of Perchlorinated Silanes—A DFT Study

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Product

Resources

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The Perchlorinated Silanes Si₂Cl₆ and Si₃Cl₈ as Sources of SiCl₂

Unexpected Disproportionation of Tetramethylethylenediamine-Supported Perchlorodisilane Cl₃SiSiCl₃

Supersilylated Tetraphosphene Derivatives M₂[t-Bu₃SiPPPPSi-t-Bu₃] (M = Li, Na, Rb, Cs) and Ba[t-Bu₃SiPPPPSi-t-Bu₃]: Reactivity and Cis−Trans Isomerization

ChemInform Abstract: Unexpected Disproportionation of Tetramethylethylenediamine‐Supported Perchlorodisilane Cl₃SiSiCl₃.