Insertions of Allenes into Palladium−Carbon Bonds of Complexes Containing Bidentate Nitrogen Ligands. Structural and Mechanistic Studies

Delis, J.G.P.; Groen, J.H.; Leeuwen, Piet W. N. M. van; Vrieze, K.; Veldman, Nora; Spek, Anthony L.

doi:10.1021/om960790e

Cited by 61 publications

(34 citation statements)

References 78 publications

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“…provided strong evidence that insertion reactions in neutral complexes containing bidentate nitrogen ligands occur via Results and Discussion intermediates in which these ligands are coordinated in a unidentate fashion. [12] [13] [14] [15] …”

Section: Novel Methyl Complexes [Pd(me)(n-n-n)]x (N-n-n =mentioning

confidence: 99%

Insertion Reactions into Palladium–Carbon Bonds of Complexes Containing Terdentate Nitrogen Ligands; Experimental and Ab initio MO Studies

Groen

Zwart

Vlaar

et al. 1998

Eur. J. Inorg. Chem.

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Novel methyl complexes [Pd(Me)(N‐N‐N)]X (N‐N‐N = flexible or rigid terdentate nitrogen ligand, X = Cl, SO3CF3, BAr′4) have been synthesized and fully characterized. All complexes readily underwent insertion of carbon monoxide resulting in the quantitative formation of complexes [Pd{C(O)Me}(N‐N‐N)]X [X = Cl (1d–6d), BAr′4 (1e–6e)]. Subsequently, complexes 2e–6e underwent quantitative insertion of norbornadiene, resulting in complexes [Pd{C7H8C(O)Me}(N‐N‐N)]BAr′4 (2f–6f). Unexpectedly, these complexes, including even those containing rigid terdentate nitrogen ligands, possess a structure in which the nitrogen ligand is coordinated in a bidentate fashion. A kinetic study of the reaction of norbornadiene with complexes 1e–6e revealed that the reactivity of complexes 1e–6e toward norbornadiene increases with increasing rigidity of the terdentate ligand, i.e. with increasing strain in the PdN3 moiety, which indicates that insertion very likely occurs via a mechanism involving nitrogen dissociation. This is fully supported by ab initio MO calculations on CO and ethylene insertion into carbon–palladium bonds of cationic model systems containing a rigid terdentate nitrogen ligand, which showed that the lowest‐energy pathway for both insertion reactions consists of substitution of one of the distal nitrogen atoms of the rigid terdentate nitrogen ligand by the substrate, followed by a rate‐determining migratory insertion of the substrate into the carbon–palladium bond.

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Section: Novel Methyl Complexes [Pd(me)(n-n-n)]x (N-n-n =mentioning

confidence: 99%

Insertion Reactions into Palladium–Carbon Bonds of Complexes Containing Terdentate Nitrogen Ligands; Experimental and Ab initio MO Studies

Groen

Zwart

Vlaar

et al. 1998

Eur. J. Inorg. Chem.

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“…In some examples it has been reported that a ligand of higher basicity makes the apparent rotation more difficult, [21] while increased steric hindrance of the N-donor ligand can facilitate [20,29] or slow down [21] the process. Negative entropies of activation have been found in some cases [29,32] and it has been reported that the process takes place more easily with coordinating anions [19,29,31] or solvents such as DMSO. [20b] It has also been reported that the addition of ligand or water has a negligible effect on the process in a number of examples; [18,21] other examples have been described where the effect of adding ligand or chlorides is accelerative.…”

Section: Introductionmentioning

confidence: 99%

Apparent Allyl Rotation and Pd−N Bond Rupture in Allylpalladium Complexes with N‐Donor Ligands − Evidence of an Associative Mechanism

2004

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The new didentate N-donor ligands 2-(4-methyl-1H-pyrazol-1-yl)pyrimidine (4Me-pzpm, 1) and 2-(4-bromo-1H-pyrazol-1-yl)pyrimidine (4Br-pzpm, 2) have been synthesised and used to obtain the allylpalladium derivatives [Pd(η 3 -2Me-C 3 H 4 )(NNЈ)]X [X = BArЈ 4 − , NNЈ = 1 (3), NNЈ = 2 (4); X = CF 3 SO 3 − , NNЈ = 1 (5), NNЈ = 2 (6)]. In complexes 3−6 two types of fluxional process have been found: apparent allyl rotation that is observed as H syn −H syn , H anti −H anti interconversions and H 4 −H 6 interchange of the pyrimidine protons that must involve Pd−N(pm) bond rupture. The influence of different factors on both processes -such as the nature of

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“…The latter possibility might well occur as structural studies on Pd-η 3 -allyl complexes and (2,9-dimethyl-1,10-phenanthroline)Pt(X) 2 L complexes (L ) C 2 H 4 , CO, PPh 3 , ONPh) revealed monodentate coordination of a nitrogen ligand for flexible ligands as well as for rigid ones. [31][32][33] To obtain more insight into the mechanism of CO insertion, we turned our attention to insertion of the isoelectronic isocyanides. Isocyanides might allow the observation of intermediate complexes and variation of electronic and steric factors by variation of the R group on the nitrogen atom, and moreover, it would be of great interest to look at the possibility for the direct synthesis of the polyimine analogue of polyketone.…”

Section: Introductionmentioning

confidence: 99%

Isocyanide Insertion into the Palladium−Carbon Bond of Complexes Containing Bidentate Nitrogen Ligands: A Structural and Mechanistic Study

Delis¹,

Aubel²,

Vrieze³

et al. 1997

Organometallics

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Isocyanide insertion into the palladium-carbon bond of complexes containing bidentate nitrogen ligands; A structural and mechanistic study Delis, J.G.P.; Aubel, P.G.; Vrieze, K.; van Leeuwen, P.W.N.M.; Veldman, N.; Spek, A.L.; van Neer, F.J.R. Published in: Organometallics DOI:10.1021/om970096eLink to publication Citation for published version (APA):Delis, J. G. P., Aubel, P. G., Vrieze, K., van Leeuwen, P. W. N. M., Veldman, N., Spek, A. L., & van Neer, F. J. R. (1997). Isocyanide insertion into the palladium-carbon bond of complexes containing bidentate nitrogen ligands; A structural and mechanistic study. Organometallics, 16, 2948-2957. DOI: 10.1021/om970096e General rightsIt is not permitted to download or to forward/distribute the text or part of it without the consent of the author(s) and/or copyright holder(s), other than for strictly personal, individual use, unless the work is under an open content license (like Creative Commons). Disclaimer/Complaints regulationsIf you believe that digital publication of certain material infringes any of your rights or (privacy) interests, please let the Library know, stating your reasons. In case of a legitimate complaint, the Library will make the material inaccessible and/or remove it from the website. Please Ask the Library: http://uba.uva.nl/en/contact, or a letter to: Library of the University of Amsterdam, Secretariat, Singel 425, 1012 WP Amsterdam, The Netherlands. You will be contacted as soon as possible. Insertion of the isocyanides 2,6-dimethylphenyl isocyanide (DIC), tert-butyl isocyanide (TIC) and tosylmethyl isocyanide (TosMIC) into the Pd-Me bond of complexes (NkN)Pd(Me)Cl (NkN ) 2,2′-bipyridine (bpy), 1,10-phenanthroline (phen), 2,2′-bipyrimidine (bpm)) afforded quantitatively (NkN)Pd(C(dNsR)Me)Cl (R ) 2,6-Me 2 C 6 H 3 , t-Bu, CH 2 Tosyl). The course of the reaction has been shown to proceed via the intermediates [(NkN)Pd(CN-R)(Me)]Cl (NkN ) bpy, phen; R ) 2,6-Me 2 C 6 H 3 , t-Bu, CH 2 Tosyl), which have been characterized at 250 K by NMR and IR spectroscopies and conductivity measurements. The mechanism of the insertion reaction involves substitution of the halide by the isocyanide followed by a rate-determining methyl migration to the precoordinated isocyanide. Kinetic measurements of the isocyanide insertion reaction, which provided the reaction rate constants of the isocyanide association (k 1 ), isocyanide dissociation (k -1 ), and methyl migration reaction (k 2 ), have demonstrated that the migration rate of the methyl group to the precoordinated isocyanide increases with increasing electrophilicity of the isocyanide. Methyl migration in the intermediate complexes [(NkN)Pd(CN-R)(Me)]Cl (NkN ) bpy, phen; R ) 2,6-Me 2 C 6 H 3 , t-Bu, CH 2 Tosyl) also occurs in the solid state. The complexes (NkN)Pd(C(dNsR)Me)X (NkN ) bpy, phen; R ) t-Bu, CH 2 Tosyl; X ) Cl, Br) show a fluxional behavior due to a site exchange of the nitrogen donor atoms. Spin saturation transfer 1 H NMR experiments showed that the mechanism of this process involves Pd-N bond breaki...

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Insertions of Allenes into Palladium−Carbon Bonds of Complexes Containing Bidentate Nitrogen Ligands. Structural and Mechanistic Studies

Cited by 61 publications

References 78 publications

Insertion Reactions into Palladium–Carbon Bonds of Complexes Containing Terdentate Nitrogen Ligands; Experimental and Ab initio MO Studies

Insertion Reactions into Palladium–Carbon Bonds of Complexes Containing Terdentate Nitrogen Ligands; Experimental and Ab initio MO Studies

Apparent Allyl Rotation and Pd−N Bond Rupture in Allylpalladium Complexes with N‐Donor Ligands − Evidence of an Associative Mechanism

Isocyanide Insertion into the Palladium−Carbon Bond of Complexes Containing Bidentate Nitrogen Ligands: A Structural and Mechanistic Study

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