Formation of Methane versus Benzene in the Reactions of (C5Me5)2Th(CH3)2 with [CH3PPh3]X (X=Cl, Br, I) Yielding Thorium‐Carbene or Thorium‐Ylide Complexes

The reaction of (C5Me5)2Th(CH3)2 with the phosphonium salts [CH3PPh3]X (X=Cl, Br, I) was investigated. When X=Br and I, two equivalents of methane are liberated to afford (C5Me5)2Th[CHPPh3]X, rare terminal phosphorano‐stabilized carbenes with thorium. These complexes feature the shortest thorium–car...

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Veröffentlicht in:	Angewandte Chemie 2017-10, Vol.129 (42), p.13105-13109
Hauptverfasser:	Rungthanaphatsophon, Pokpong, Bathelier, Adrien, Castro, Ludovic, Behrle, Andrew C., Barnes, Charles L., Maron, Laurent, Walensky, Justin R.
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Sprache:	eng ; ger
Schlagworte:	Benzene Carbene Carbenes Chemistry Density functional theory Electronic structure Equivalence Hydrocarbons Iodides Mehrfachbindungen Metallorganische Verbindungen Methane Phosphorus Salts Thorium Ylide
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description	The reaction of (C5Me5)2Th(CH3)2 with the phosphonium salts [CH3PPh3]X (X=Cl, Br, I) was investigated. When X=Br and I, two equivalents of methane are liberated to afford (C5Me5)2Th[CHPPh3]X, rare terminal phosphorano‐stabilized carbenes with thorium. These complexes feature the shortest thorium–carbon bonds (≈2.30 Å) reported to date, and electronic structure calculations show some degree of multiple bonding. However, when X=Cl, only one equivalent of methane is lost with concomitant formation of benzene from an unstable phosphorus(V) intermediate, yielding (C5Me5)2Th[κ2‐(C,C′)‐(CH2)(CH2)PPh2]Cl. Density functional theory (DFT) investigations of the reaction energy profiles for [CH3PPh3]X, X=Cl and I showed that in the case of iodide, thermodynamics prevents the production of benzene and favors formation of the carbene. Wählerisches Thorium: Die Reaktion von (C5Me5)2Th(CH3)2 mit den Phosphoniumsalzen [CH3PPh3]X liefert mit X=Br und I terminale Thorium‐Carbenkomplexe mit Thorium‐Kohlenstoff‐Mehrfachbindungen. Mit X=Cl wird ein Thorium‐Ylidkomplex gebildet.
doi_str_mv	10.1002/ange.201706496
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When X=Br and I, two equivalents of methane are liberated to afford (C5Me5)2Th[CHPPh3]X, rare terminal phosphorano‐stabilized carbenes with thorium. These complexes feature the shortest thorium–carbon bonds (≈2.30 Å) reported to date, and electronic structure calculations show some degree of multiple bonding. However, when X=Cl, only one equivalent of methane is lost with concomitant formation of benzene from an unstable phosphorus(V) intermediate, yielding (C5Me5)2Th[κ2‐(C,C′)‐(CH2)(CH2)PPh2]Cl. Density functional theory (DFT) investigations of the reaction energy profiles for [CH3PPh3]X, X=Cl and I showed that in the case of iodide, thermodynamics prevents the production of benzene and favors formation of the carbene. Wählerisches Thorium: Die Reaktion von (C5Me5)2Th(CH3)2 mit den Phosphoniumsalzen [CH3PPh3]X liefert mit X=Br und I terminale Thorium‐Carbenkomplexe mit Thorium‐Kohlenstoff‐Mehrfachbindungen. 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When X=Br and I, two equivalents of methane are liberated to afford (C5Me5)2Th[CHPPh3]X, rare terminal phosphorano‐stabilized carbenes with thorium. These complexes feature the shortest thorium–carbon bonds (≈2.30 Å) reported to date, and electronic structure calculations show some degree of multiple bonding. However, when X=Cl, only one equivalent of methane is lost with concomitant formation of benzene from an unstable phosphorus(V) intermediate, yielding (C5Me5)2Th[κ2‐(C,C′)‐(CH2)(CH2)PPh2]Cl. Density functional theory (DFT) investigations of the reaction energy profiles for [CH3PPh3]X, X=Cl and I showed that in the case of iodide, thermodynamics prevents the production of benzene and favors formation of the carbene. Wählerisches Thorium: Die Reaktion von (C5Me5)2Th(CH3)2 mit den Phosphoniumsalzen [CH3PPh3]X liefert mit X=Br und I terminale Thorium‐Carbenkomplexe mit Thorium‐Kohlenstoff‐Mehrfachbindungen. 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When X=Br and I, two equivalents of methane are liberated to afford (C5Me5)2Th[CHPPh3]X, rare terminal phosphorano‐stabilized carbenes with thorium. These complexes feature the shortest thorium–carbon bonds (≈2.30 Å) reported to date, and electronic structure calculations show some degree of multiple bonding. However, when X=Cl, only one equivalent of methane is lost with concomitant formation of benzene from an unstable phosphorus(V) intermediate, yielding (C5Me5)2Th[κ2‐(C,C′)‐(CH2)(CH2)PPh2]Cl. Density functional theory (DFT) investigations of the reaction energy profiles for [CH3PPh3]X, X=Cl and I showed that in the case of iodide, thermodynamics prevents the production of benzene and favors formation of the carbene. Wählerisches Thorium: Die Reaktion von (C5Me5)2Th(CH3)2 mit den Phosphoniumsalzen [CH3PPh3]X liefert mit X=Br und I terminale Thorium‐Carbenkomplexe mit Thorium‐Kohlenstoff‐Mehrfachbindungen. 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subjects	Benzene Carbene Carbenes Chemistry Density functional theory Electronic structure Equivalence Hydrocarbons Iodides Mehrfachbindungen Metallorganische Verbindungen Methane Phosphorus Salts Thorium Ylide
title	Formation of Methane versus Benzene in the Reactions of (C5Me5)2Th(CH3)2 with [CH3PPh3]X (X=Cl, Br, I) Yielding Thorium‐Carbene or Thorium‐Ylide Complexes
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