Mechanism of the Ru–Allenylidene to Ru–Indenylidene Rearrangement in Ruthenium Precatalysts for Olefin Metathesis | Zendy

Eva Pump | Zendy; Christian Slugovc | Zendy; Luigi Cavallo | Zendy; Albert Poater | Zendy

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Mechanism of the Ru–Allenylidene to Ru–Indenylidene Rearrangement in Ruthenium Precatalysts for Olefin Metathesis

Author(s) -

Eva Pump,

Christian Slugovc,

Luigi Cavallo,

Albert Poater

Publication year - 2015

Publication title -

organometallics

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.231

H-Index - 172

eISSN - 1520-6041

pISSN - 0276-7333

DOI - 10.1021/om501246q

Subject(s) - chemistry , intramolecular force , ruthenium , olefin metathesis , phosphine , grubbs' catalyst , olefin fiber , metathesis , medicinal chemistry , catalysis , stereochemistry , organic chemistry , polymerization , polymer

The intramolecular allenylidene RuCl2(PR3)(2)(C=C=CPh2) to indenylidene RuCl2(PR3)(2)(Ind) rearrangement that occurs during the synthesis of Ru-based precatalysts for olefin metathesis is presented. In the absence of acid, the ring closure via C-H activation was shown to be unfavored for energy barriers up to 70 kcal/mol. Thus, it turned out to be HCl (or other acid) that plays a crucial role during formation of the indenylidene, as the upper energy barrier decreases to a reasonable 35 kcal/mol. Moreover, we proved computationally that depending on the nature of the phosphine the intramolecular rearrangement is either facilitated (PPh3) or slightly hampered (PCy3), which is in line with experimental results

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