Tungsten(VI) Carbyne/Bis(carbene) Tautomerization Enabled by N-Donor SBA15 Surface Ligands: A Solid-State NMR and DFT Study

Designing supported well‐defined bis(carbene) complexes remains a key challenge in heterogeneous catalysis. The reaction of W(≡CtBu)(CH2tBu)3 with amine‐modified mesoporous SBA15 silica, which has vicinal silanol/silylamine pairs [(≡SiOH)(≡SiNH2)], leads to [(≡SiNH2−)(≡SiO−)W(≡CHtBu)(CH2tBu)2] and [...

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Veröffentlicht in:	Angewandte Chemie International Edition 2016-09, Vol.55 (37), p.11162-11166
Hauptverfasser:	Bendjeriou-Sedjerari, Anissa, Sofack-Kreutzer, Julien, Minenkov, Yury, Abou-Hamad, Edy, Hamzaoui, Bilel, Werghi, Baraa, Anjum, Dalaver H., Cavallo, Luigi, Huang, Kuo-Wei, Basset, Jean-Marie
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Sprache:	eng
Schlagworte:	chelating ligands SBA15 silica surface organometallic chemistry tautomerization α-H exchange
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creator	Bendjeriou-Sedjerari, Anissa Sofack-Kreutzer, Julien Minenkov, Yury Abou-Hamad, Edy Hamzaoui, Bilel Werghi, Baraa Anjum, Dalaver H. Cavallo, Luigi Huang, Kuo-Wei Basset, Jean-Marie
description	Designing supported well‐defined bis(carbene) complexes remains a key challenge in heterogeneous catalysis. The reaction of W(≡CtBu)(CH2tBu)3 with amine‐modified mesoporous SBA15 silica, which has vicinal silanol/silylamine pairs [(≡SiOH)(≡SiNH2)], leads to [(≡SiNH2−)(≡SiO−)W(≡CHtBu)(CH2tBu)2] and [(≡SiNH2−)(≡SiO−)W(=CHtBu)2(CH2tBu). Variable temperature, 1H–1H 2D double‐quantum, 1H–13C HETCOR, and HETCOR with spin diffusion solid‐state NMR spectroscopy demonstrate tautomerization between the alkyl alkylidyne and the bis(alkylidene) on the SBA15 surface. Such equilibrium is possible through the coordination of W to the surface [(≡Si−OH)(≡Si−NH2)] groups, which act as a [N,O] pincer ligand. DFT calculations provide a rationalization for the surface–complex tautomerization and support the experimental results. This direct observation of such a process shows the strong similarity between molecular mechanisms in homogeneous and heterogeneous catalysis. In propane metathesis (at 150 °C), the tungsten bis(carbene) tautomer is favorable, with a turnover number (TON) of 262. It is the highest TON among all the tungsten alkyl‐supported catalysts. O brave HETCOR! Look how it binds! Solid‐state NMR was used to demonstrate the tautomerization of the alkyl alkylidyne and bis(alkylidene) forms of a tungsten complex on a SBA15 silica surface. Such equilibrium is possible through the coordination of W to the surface‐adjacent [(≡Si−OH) (≡Si−NH2)] groups, which behave as a [N,O] pincer ligand. {W}=W(≡CtBu)(CH2tBu)3.
doi_str_mv	10.1002/anie.201605934
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The reaction of W(≡CtBu)(CH2tBu)3 with amine‐modified mesoporous SBA15 silica, which has vicinal silanol/silylamine pairs [(≡SiOH)(≡SiNH2)], leads to [(≡SiNH2−)(≡SiO−)W(≡CHtBu)(CH2tBu)2] and [(≡SiNH2−)(≡SiO−)W(=CHtBu)2(CH2tBu). Variable temperature, 1H–1H 2D double‐quantum, 1H–13C HETCOR, and HETCOR with spin diffusion solid‐state NMR spectroscopy demonstrate tautomerization between the alkyl alkylidyne and the bis(alkylidene) on the SBA15 surface. Such equilibrium is possible through the coordination of W to the surface [(≡Si−OH)(≡Si−NH2)] groups, which act as a [N,O] pincer ligand. DFT calculations provide a rationalization for the surface–complex tautomerization and support the experimental results. This direct observation of such a process shows the strong similarity between molecular mechanisms in homogeneous and heterogeneous catalysis. In propane metathesis (at 150 °C), the tungsten bis(carbene) tautomer is favorable, with a turnover number (TON) of 262. It is the highest TON among all the tungsten alkyl‐supported catalysts. O brave HETCOR! Look how it binds! Solid‐state NMR was used to demonstrate the tautomerization of the alkyl alkylidyne and bis(alkylidene) forms of a tungsten complex on a SBA15 silica surface. 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Chem. Int. Ed</addtitle><description>Designing supported well‐defined bis(carbene) complexes remains a key challenge in heterogeneous catalysis. The reaction of W(≡CtBu)(CH2tBu)3 with amine‐modified mesoporous SBA15 silica, which has vicinal silanol/silylamine pairs [(≡SiOH)(≡SiNH2)], leads to [(≡SiNH2−)(≡SiO−)W(≡CHtBu)(CH2tBu)2] and [(≡SiNH2−)(≡SiO−)W(=CHtBu)2(CH2tBu). Variable temperature, 1H–1H 2D double‐quantum, 1H–13C HETCOR, and HETCOR with spin diffusion solid‐state NMR spectroscopy demonstrate tautomerization between the alkyl alkylidyne and the bis(alkylidene) on the SBA15 surface. Such equilibrium is possible through the coordination of W to the surface [(≡Si−OH)(≡Si−NH2)] groups, which act as a [N,O] pincer ligand. DFT calculations provide a rationalization for the surface–complex tautomerization and support the experimental results. This direct observation of such a process shows the strong similarity between molecular mechanisms in homogeneous and heterogeneous catalysis. In propane metathesis (at 150 °C), the tungsten bis(carbene) tautomer is favorable, with a turnover number (TON) of 262. It is the highest TON among all the tungsten alkyl‐supported catalysts. O brave HETCOR! Look how it binds! Solid‐state NMR was used to demonstrate the tautomerization of the alkyl alkylidyne and bis(alkylidene) forms of a tungsten complex on a SBA15 silica surface. 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Chem. Int. Ed</addtitle><date>2016-09-05</date><risdate>2016</risdate><volume>55</volume><issue>37</issue><spage>11162</spage><epage>11166</epage><pages>11162-11166</pages><issn>1433-7851</issn><eissn>1521-3773</eissn><coden>ACIEAY</coden><abstract>Designing supported well‐defined bis(carbene) complexes remains a key challenge in heterogeneous catalysis. The reaction of W(≡CtBu)(CH2tBu)3 with amine‐modified mesoporous SBA15 silica, which has vicinal silanol/silylamine pairs [(≡SiOH)(≡SiNH2)], leads to [(≡SiNH2−)(≡SiO−)W(≡CHtBu)(CH2tBu)2] and [(≡SiNH2−)(≡SiO−)W(=CHtBu)2(CH2tBu). Variable temperature, 1H–1H 2D double‐quantum, 1H–13C HETCOR, and HETCOR with spin diffusion solid‐state NMR spectroscopy demonstrate tautomerization between the alkyl alkylidyne and the bis(alkylidene) on the SBA15 surface. Such equilibrium is possible through the coordination of W to the surface [(≡Si−OH)(≡Si−NH2)] groups, which act as a [N,O] pincer ligand. DFT calculations provide a rationalization for the surface–complex tautomerization and support the experimental results. This direct observation of such a process shows the strong similarity between molecular mechanisms in homogeneous and heterogeneous catalysis. In propane metathesis (at 150 °C), the tungsten bis(carbene) tautomer is favorable, with a turnover number (TON) of 262. It is the highest TON among all the tungsten alkyl‐supported catalysts. O brave HETCOR! Look how it binds! Solid‐state NMR was used to demonstrate the tautomerization of the alkyl alkylidyne and bis(alkylidene) forms of a tungsten complex on a SBA15 silica surface. Such equilibrium is possible through the coordination of W to the surface‐adjacent [(≡Si−OH) (≡Si−NH2)] groups, which behave as a [N,O] pincer ligand. {W}=W(≡CtBu)(CH2tBu)3.</abstract><cop>Germany</cop><pub>Blackwell Publishing Ltd</pub><pmid>27514022</pmid><doi>10.1002/anie.201605934</doi><tpages>5</tpages><edition>International ed. in English</edition></addata></record>
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subjects	chelating ligands SBA15 silica surface organometallic chemistry tautomerization α-H exchange
title	Tungsten(VI) Carbyne/Bis(carbene) Tautomerization Enabled by N-Donor SBA15 Surface Ligands: A Solid-State NMR and DFT Study
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