2017
DOI: 10.1002/chem.201703820
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Experimental Evaluation of (L)Au Electron‐Donor Ability in Cationic Gold Carbene Complexes

Abstract: Si NMR spectroscopy was employed to evaluate the electron donor properties of the (L)Au fragments in the cationic gold (β,β-disilyl)vinylidene complexes [(L)Au=C=CSi(Me) CH CH Si(Me) ] B(C F ) [L=P(tBu) o-biphenyl or NHC] relative to the p-substituted aryl group in the α-aryl-(β,β-disilyl)vinyl cations [(p-C H X)-C= CSi(Me) CH CH Si(Me) ] B(C F ) . Similarly, F NMR was employed to evaluate the σ- and π-electron donor properties of the (L)Au fragments in the neutral gold fluorophenyl complexes (L)Au(C H F) and … Show more

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Cited by 12 publications
(6 citation statements)
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“…The 16-MIC complex also exhibits the lowest value of electrostatic interaction for the complete series that confirms the high donation potential of this ligand. On the contrary, the 15-IPr complex bearing the IPr carbene is not a strong σ-donor ligand with a lower stabilization of electrostatic interaction than 1-tBu 42 (∆Eelect = -115.5 and -110.8 kcal/mol for complexes 1-tBu and 15-IPr respectively). However, the 15-IPr complex is less destabilized by Pauli repulsion with only 132.7 kcal/mol which explains the strength of the Au-CO bond.…”
Section: Please Do Not Adjust Marginsmentioning
confidence: 91%
“…The 16-MIC complex also exhibits the lowest value of electrostatic interaction for the complete series that confirms the high donation potential of this ligand. On the contrary, the 15-IPr complex bearing the IPr carbene is not a strong σ-donor ligand with a lower stabilization of electrostatic interaction than 1-tBu 42 (∆Eelect = -115.5 and -110.8 kcal/mol for complexes 1-tBu and 15-IPr respectively). However, the 15-IPr complex is less destabilized by Pauli repulsion with only 132.7 kcal/mol which explains the strength of the Au-CO bond.…”
Section: Please Do Not Adjust Marginsmentioning
confidence: 91%
“…The characteristic quinoid distortion in 12 a with short C1−C2 (1.433 Å) and C5−N1 (1.359 Å) bonds shows that the electron‐rich carbene backbone, rather than the metal center, largely accounts for the metastability of this complex. In contrast, the actual C1−Au1 carbene unit itself seems to lack significant π back‐donation: In this particular case, this bond has the exact same length [2.023(6) Å] as the bond between the gold atom and the IPr ligand, which is appreciated by the organometallic community for its poor π‐acceptor qualities. [28, 30}…”
Section: Figurementioning
confidence: 99%
“…Once deprotonation of rhodium(I)-bisphenol complex K affords dearomatized allenylrhodiumc omplex L, [26] nucleophilic attack of the carbonyl oxygen to the silicon atom affords rhodium acetylide M,w hich is lower in energy than L (ca. 18 kcal mol À1 ), not throught he expected1 ,2-silicon migration butr ather through an unprecedented 1,5-silicon migration [27] via transition state LM_TS.T he interaction between the basic b-carbon of acetylide and the silicon atom then affords rhodium vinylidene A [28,29] via transition state MA_TS.R hodiumv inylidene A is transformedi nto h 3 -allenyl/propargyl-rhodium complex B through 1,3-carbon (alkyne) migration via transition state AB_TS.O nt he other hand, 1,2-silicon migration withoutd eprotonation would afford rhodiumv inylidene N via transition state KN_TS.S ubsequent deprotonation would also afford the rhodiumv inylidene A mentioned above.H owever,a ctivation energy of the step from L to M via LM_TS (6.5 kcal mol À1 )i sc a. 10 kcal mol À1 lower than that of the step from K to N via KN_TS (16.9 kcal mol À1 ), which suggests that the former pathway is more likely to occur.W ep reviously advocated that rhodiumv inylidene A might be generated from 1 through 1,2-siliconm igration.…”
Section: Resultsmentioning
confidence: 99%