The divergent effects of strong NHC donation in catalysis

Strong σ-donation from NHC ligands (NHC = N-heterocyclic carbene) is shown to have profoundly conflicting consequences for the reactivity of transition-metal catalysts. Such donation is regarded as central to high catalyst activity in many contexts, of which the second-generation Grubbs metathesis c...

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Bibliographic Details
Published in:Chemical science (Cambridge) 2015-01, Vol.6 (12), p.6739-6746
Main Authors: Lummiss, Justin A M, Higman, Carolyn S, Fyson, Devon L, McDonald, Robert, Fogg, Deryn E
Format: Article
Language:English
Subjects:
Attenuation
Bonding strength
Carbenes
Catalysis
Catalysts
Derivatives
Ligands
Phosphines
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Summary:Strong σ-donation from NHC ligands (NHC = N-heterocyclic carbene) is shown to have profoundly conflicting consequences for the reactivity of transition-metal catalysts. Such donation is regarded as central to high catalyst activity in many contexts, of which the second-generation Grubbs metathesis catalysts (RuCl (NHC)(PCy )([double bond, length as m-dash]CHPh), ) offer an early, prominent example. Less widely recognized is the dramatically inhibiting impact of NHC ligation on initiation of , and on re-entry into the catalytic cycle from the resting-state methylidene species RuCl (NHC)(PCy )([double bond, length as m-dash]CH ), . Both and the methylidene complexes are activated by dissociation of PCy . The impact of NHC donicity on the rate of PCy loss is explored in a comparison of , , in which the NHC ligand is saturated H IMes or unsaturated IMes, respectively. PCy loss is nearly an order of magnitude slower for the IMes derivative (a difference that is replicated, albeit smaller, for the benzylidene precatalysts ). Proposed as an overlooked contributor to these rate differences is an increase in the Ru-PCy bond strength arising from π-back-donation onto the phosphine ligand. Strong σ-donation from the IMes ligand, coupled with the inability of this unsaturated NHC to participate in significant π-backbonding, amplifies Ru → PCy π-back-donation. The resulting increase in Ru-P bond strength greatly inhibits entry into the active cycle. For , in contrast, the greater π-acceptor capacity of the NHC ligand enables competing Ru → H IMes back-donation (as confirmed by NOE experiments, which reveal restricted rotation about the Ru-NHC bond for H IMes, but not IMes). Ru → PCy back-donation is thus attenuated in the H IMes complexes, accounting for the greater lability of the PCy ligand in and . Similarly inhibited initiation is predicted for other metal-NHC catalysts in which a π-acceptor ligand L must be dissociated to permit substrate binding. Conversely, enhanced reactivity can be expected where such L ligands are pure σ-donors. These effects are expected to be particularly dramatic where the NHC ligand has minimal π-acceptor capacity (as in the unsaturated Arduengo carbenes), and in geometries that maximize NHC-M-L orbital interactions.
ISSN:2041-6520
2041-6539
DOI:10.1039/c5sc02592c