Kinetic and thermodynamic products in the reaction of poly(dichlorodicarbonylruthenium) with pyridinecarbaldimine ligands and the crystal structure of trans-Cl2Ru(CO)2(N-(pyrid-2-ylmethoxymethyl)(3-isopropoxypropyl)amine)

Klerk-Engles, Barbara de; Fruhauf, Hans Werner; Vrieze, K.; Kooijman, Huub; Spek, Anthony L.

doi:10.1021/ic00076a020

Cited by 25 publications

(23 citation statements)

References 3 publications

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“…[44] The bite angle of 76.8(2)°, form selectively stereoisomers. [42] It will be shown that in the case of the complexes under study only one of the pos-which causes the deviation from a regular octahedral structure, has also been found for these complexes. The RuϪMe sible four stereoisomers presented in Figure 1 [43] Crystal Structure of cis,cis-[Ru(I)(Me)(CO) 2 (iPr-DAB)]…”

Section: (α-mentioning

confidence: 92%

“…The 1 H-NMR spectrum of cis,cis-[Ru(Cl) 2 (CO) 2 (R-PyCa)], with the chloride trans to the imine moiety, shows a resonance for H 6 , which is shifted down field by approximately 0.5 ppm with respect to that of H 6 in the trans,cis-[Ru(Cl) 2 (CO) 2 (R-PyCa)] complex. [42] This shift is not found for cis,cis-[Ru(I)(Me)(CO) 2 (dmb)], and these signals are accordingly assigned to the latter conformation, with the methyl in an equatorial and the iodide in an axial position.…”

Section: Cis-[ru(i)(me)(co) 2 (Ipr-dab)]mentioning

confidence: 98%

“…[40] [41] This shift is most probably due to through-space interaction between the methyl and the iodide, when these ligands are in a cis position. [42] Electronic Absorption Spectra…”

Section: Cis-[ru(i)(me)(co) 2 (Ipr-dab)]mentioning

confidence: 99%

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Syntheses, Structures, and Spectroscopic Properties ofcis,cis-andtrans,cis-[Ru(I)(Me)(CO)2(α-diimine)] Complexes

Kleverlaan

Stufkens²,

Fraanje³

1998

Eur. J. Inorg. Chem.

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Section: (α-mentioning

confidence: 92%

Section: Cis-[ru(i)(me)(co) 2 (Ipr-dab)]mentioning

confidence: 98%

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Syntheses, Structures, and Spectroscopic Properties ofcis,cis-andtrans,cis-[Ru(I)(Me)(CO)2(α-diimine)] Complexes

Kleverlaan

Stufkens²,

Fraanje³

1998

Eur. J. Inorg. Chem.

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“…[6][7][8] An attractive feature of this ligand class is the facile synthesis of the imine (-CvN-) through the condensation of primary amines with aldehydes, which allows great variety in the substituent groups on both precursors, Scheme 1. 5,[9][10][11][12][13][14][15][16][17][18][19][20][21][22][23][24][25] Additionally, a transient hemiaminal was also observed crystallographically during the formation of an imine bond in a Zn(II) metal organic framework (MOF). While the solvent is presumed to be non-reactive, there is growing evidence that certain azomethine chelates are susceptible to alcoholysis generating metal-coordinated hemiaminal ethers, which have been structurally characterized.…”

Section: Introductionmentioning

confidence: 99%

Reversible methanol addition to copper Schiff base complexes: a kinetic, structural and spectroscopic study of reactions at azomethine CN bonds

et al. 2016

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The reversible methanolysis of an azomethine C[double bond, length as m-dash]N in a series of copper(ii) Schiff base complexes has been investigated through combined spectroscopic, structural, and kinetic studies. Pentadentate copper(ii) complexes [L-Cu(X)]Y (L = 1,2-bis[(1-methyl-2-imidazolyl)methyleneamino]ethane; X = Y = ClO (1); X = Y = TfO (2); X = Y = BF (3); X = HO, Y = (ClO) (4) spontaneously add methanol in a ligand centered reaction to yield stable, isolable hemiaminal ether product complexes 5-8. In methanol free solution, 5-8 spontaneously release alcohol to regenerate 1-4. The methanol addition reaction is first-order in methanol and first-order in complex with second-order rate constants varying from 1.1 × 10 to 187 × 10 M s dependent on the donor ability of the axial ligand. Rate constants for methanol elimination vary from 0.67 to 3.7 × 10 s with dependence on the counterion and water content of the solvent. Equilibrium constants for methanolysis range from 1.5 to 51 M. Structural comparisons of the Schiff base complexes 1-4 and the hemiaminal ether complexes 5-8 suggest methanol addition is favored by the release of ligand strain associated with three planar five-membered chelates in 1-4.

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“…A síntese de uma série de isômeros geométricos pode envolver grandes dificuldades e um considerável volume de trabalho, uma vez que a estereoquímica dos isômeros é muitas vezes controlada por pequenas alterações nas condições de reação, que precisam ser cuidadosamente selecionadas e rigorosamente mantidas 26,27 . Temperatura, solvente e tempo de reação costumam apresentar-se como fatores determinantes na obtenção de isômeros geométricos distintos.…”

Section: Métodos De Obtenção De Isômeros Geométricos Cis-transunclassified

Isomerismo cis-trans: de Werner aos nossos dias

Queiroz¹,

Batista²

1998

Quím. Nova

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Recebido em 17/9/96; aceito em 17/9/97 CIS-TRANS ISOMERISM: FROM WERNER TO THE PRESENT DAYS: In coordination chemistry the study of geometrical isomerization and reactivity of specific isomers is a topic of major importance. The preparation of specific isomers often requires considerable complexity, and it is important to acquire a sense of what is involved in studying isomerism in laboratory. If it is difficult sometimes to prepare pure isomers, it is not easier to understand the mechanisms of isomerization reactions since studies on this subject have shown conflicting results and diferent interpretations on the same system have been reported in the literature. Although cis-trans isomerism in octahedral metal complexes is a common occurrence, there are relatively few studies reporting how these isomerizations occur. This paper gives an overview on cis-trans isomerization processes and identification of these species.

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Kinetic and thermodynamic products in the reaction of poly(dichlorodicarbonylruthenium) with pyridinecarbaldimine ligands and the crystal structure of trans-Cl2Ru(CO)2(N-(pyrid-2-ylmethoxymethyl)(3-isopropoxypropyl)amine)

Abstract: Kinetic and Thermodynamic Products in the Reaction of [RuC12(CO)2]" with Pyridinecarbaldimine Ligands and the Crystal Structure of frav7S-CI2Ru(CO)2(N-(pyrid-2-ylmethoxymethyl)(3-isopropoxypropyl)amine

Cited by 25 publications

References 3 publications

Syntheses, Structures, and Spectroscopic Properties ofcis,cis-andtrans,cis-[Ru(I)(Me)(CO)2(α-diimine)] Complexes

Syntheses, Structures, and Spectroscopic Properties ofcis,cis-andtrans,cis-[Ru(I)(Me)(CO)2(α-diimine)] Complexes

Reversible methanol addition to copper Schiff base complexes: a kinetic, structural and spectroscopic study of reactions at azomethine CN bonds

Isomerismo cis-trans: de Werner aos nossos dias

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