2000
DOI: 10.1021/om0001671
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Reversible C−H Bond Activation of a Bifunctional Phosphine Bridging Ligand across Two Unbonded Metal Centers

Abstract: Reaction of [{Ir(µ-Cl)(cod)} 2 ] with the short-bite bifunctional N,P-donor ligand (1-benzyl-2-imidazolyl)diphenylphosphine (Ph 2 PBzIm) gives the yellow complex [IrCl(Ph 2 PBzIm)(cod)] (2). A further addition of [{Ir(µ-Cl)(cod)} 2 ] to 2 results in the reversible metalation of a phenyl ring across two unbonded iridium centers to give orange crystals of [IrCl(cod){µ-PPh(C 6 H 4 )-BzIm}IrHCl(cod)] (1). Complex 1 is in equilibrium with the mononuclear complex [IrCl(Ph 2 -PBzIm)(cod)] and the active species under… Show more

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Cited by 28 publications
(21 citation statements)
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“…Despite the attractiveness and novelty of the use of pyridylphosphines noted above, until our work on imidazolyl-and pyridylphosphines there appeared to be no other reports of catalysis using these species. Instead, hundreds of pyridylphosphine complexes [11,12] and fewer imidazoylphosphine complexes (examples, [13][14][15][16][17][18][19][20]) had been made for a variety of purposes other than catalysis. Here, hydrogen bonding or proton transfer in catalysis using heterocyclic phosphines and their complexes will be the focus.…”
Section: Introductionmentioning
confidence: 99%
“…Despite the attractiveness and novelty of the use of pyridylphosphines noted above, until our work on imidazolyl-and pyridylphosphines there appeared to be no other reports of catalysis using these species. Instead, hundreds of pyridylphosphine complexes [11,12] and fewer imidazoylphosphine complexes (examples, [13][14][15][16][17][18][19][20]) had been made for a variety of purposes other than catalysis. Here, hydrogen bonding or proton transfer in catalysis using heterocyclic phosphines and their complexes will be the focus.…”
Section: Introductionmentioning
confidence: 99%
“…Here we describe some fundamental studies of bifunctional catalysts and related complexes, with a focus on phosphines bearing an imidazolyl or pyridyl group and the roles the basic nitrogen substituent can play. Though many pyridyl [13,14] and fewer imidazoylphosphine complexes are known (examples [15][16][17][18][19][20][21][22]), as far as we are aware, relatively few reports of enhanced catalysis exist. In pioneering work at Shell in the 1990s [23,24], a pyrid-2-yl or 6-methyl-2-pyrid-yl phosphine led to very significant enhancements in rate and selectivity for Pd-catalyzed methoxycarbonylation of propyne.…”
Section: Introductionmentioning
confidence: 99%
“…Despite the benefits of the novel use of pyridylphosphines noted above, until our work on imidazolyl-and pyridylphosphines there appeared to be no other reports of catalysis using these species. Instead, hundreds of pyridylphosphine complexes [13,14] and fewer imidazoylphosphine complexes (examples, [15][16][17][18][19][20][21][22]) had been made for a variety of purposes other than catalysis. Here, hydrogen bonding or proton transfer in catalysis using heterocyclic phosphines and their complexes will be the focus.…”
Section: Introductionmentioning
confidence: 99%
“…Precedents for this type of structural arrangement exist for P,N ligands. [66,67] As the equilibrium between the five-coordinate and the four-coordinate isomers of 2-R lies strongly in favor of the latter when R = tBu, the pendant StBu arm is available to coordinate the Ir center in the unsaturated [Ir-(COD)Cl] complex, which is in equilibrium with the dichloro-bridged dimer. It is rather remarkable, however, that this process is slower than the addition of the chloride anion to the same position.…”
Section: (C) Nmr Spectroscopy Of Compounds 2-rmentioning
confidence: 99%