Modular Routes Towards New N,O‐Bidentate Ligands Containing an Electronically Delocalised β‐Enaminone Chelating Backbone

Beckmann, U.; Eichberger, Eva; Lindner, Monika M.; Bongartz, Melanie; Kunz, Peter C.

doi:10.1002/ejoc.200800372

Cited by 19 publications

(16 citation statements)

References 44 publications

(53 reference statements)

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“…[6][7][8] β-Aminovinyl ketones with a fluoroalkyl moiety are interesting organic precursors that can be decorated in a number of useful synthetic sequences to produce diverse molecular entities with specific applications. [1,[9][10][11][12][13][14][15][16][17][18][19][20][21] Their potentially broad coordination chemistry [21][22][23][24][25][26][27][28][29] combined with appropriate organic functionalities make them attractive for the design of a new generation of original materials with potential in catalysis, molecular magnetism and therapeutic applications. A series of fluorinated enaminones that bear two independent coordination centres have been obtained, and the crystal structure of a Cu II complex has been reported.…”

Section: Introductionmentioning

confidence: 99%

Bidentate and Tetradentate β‐Aminovinyl Trifluoromethylated Ketones and Their Copper(II) Complexes: Synthesis, Characterization and Redox Chemistry

2012

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Keywords: Electrochemistry / UV/Vis spectroscopy / Copper / FluorineNew polyfunctional bidentate and tetradentate trifluoromethylated enaminone ligands that bear redox-active and photosensitive moieties were synthesized in moderate to good yields and their coordination chemistry with copper(II) was examined. The crystal structures revealed the formation of mononuclear Cu II complexes with all ligands, where the metal ion is located in almost perfect to distorted square planar environments. The deviation from an ideal square

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Section: Introductionmentioning

confidence: 99%

Bidentate and Tetradentate β‐Aminovinyl Trifluoromethylated Ketones and Their Copper(II) Complexes: Synthesis, Characterization and Redox Chemistry

2012

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“…Remarkably, when using the nonfluorinated cyclohexanecarbonyl chloride (for comparative studies) in this reaction, we found that only N-acylation took place to yield the unwanted [1-cyclohexanecarbonylpyrrolidin-(2E)-ylidene]acetonitrile. [12] Hence, the nonfluorinated analogue of HL 3 remains inaccessible by this method. The complexation of (L 3 ) -to yield the desired nickel complexes 7 or 8 is accomplished by reacting stoichiometric amounts of HL 3 with (SP- (2), respectively, in the presence of sodium bis(trimethylsilyl)-amide as base.…”

Section: Resultsmentioning

confidence: 98%

“…We reported the syntheses of such bidentate N,O ligands containing an electronically delocalised β-enaminonic chelating backbone in a recent paper. [12] The ligands used in this investigation are summarised in Table 1, and the corresponding nickel complexes are shown in Table 2. Complex 3 is already known and structurally characterised.…”

Section: Resultsmentioning

confidence: 99%

“…Isotropic displacement parameters of the H atoms were kept equal to 150, 130 and 120 % of the equivalent isotropic displacement parameters of the parent primary, secondary and "aromatic" carbon atoms, respectively. [12] (540 mg, 5 mmol) was dissolved in toluene (50 mL), and triethylamine (505 mg, 5 mmol) was added. The mixture was cooled in an ice bath and 1,2,2,3,3,4,4,5,5,6,6-undecafluorocyclohexanecarbonyl chloride (1.72 g, 5 mmol) was added dropwise with stirring.…”

Section: Methodsmentioning

confidence: 99%

“…[23][24][25] The preparation of pyrrolidin-(2E/2Z)-ylideneacetonitrile and the ligands 4,4,5,5,6,6,6-heptafluoro-3-oxo-2-pyrrolidin-(2Z)-ylidenehexanenitrile (HL 1 ), 3-oxo-2-pyrrolidin-(2Z)-ylidenehexanenitrile (HL 2 ) and 2-[1-amino-eth-(Z)-ylidene]-4,4,5,5,6,6,6-heptafluoro-3-oxo-hexanenitrile (HL 4 ) was reported previously. [12] Crystal Structure Determinations: Crystals of compounds 7·C 7 H 8 and 10·0.5C 5 H 12 suitable for X-ray study were investigated with a STOE Imaging Plate Diffraction System using graphite-monochromatised Mo-K α radiation (λ = 0.71073 Å). Unit cell parameters were determined by least-squares refinements on the positions of 4225 and 5997 reflections in the range 2.00°Ͻ θ Ͻ 25.20 and 2.05°Ͻ θ Ͻ 24.0°, respectively.…”

Section: Methodsmentioning

confidence: 99%

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Square‐Planar 2‐Toluenido(triphenylphosphane)nickel(II) Complexes Containing Bidentate N,O Ligands: An Example of Planar Chirality

2010

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Nickel(II) complexes comprising electronically delocalised N,O‐chelating ligands are active catalysts in the copolymerisation of carbon monoxide and ethene. Elucidating the mechanism of catalysis presupposes the basic understanding of the intramolecular flexibility of such transition metal complexes. Several nickel(II) complexes with or without planar chirality were synthesised and characterised by NMR spectroscopic techniques and X‐ray diffraction.

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Introduction to Pyrrolidone and Caprolactam Chemistry

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2021

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Pyrrolidones and caprolactams are important structural components of solvents, surfactants, polymers, natural products, and pharmaceuticals. This chapter provides an introduction to the structure, conformation, physical properties and reactivity of pyrrolidones and caprolactams. It begins with an overview of the nomenclature of lactams since there are several systems of nomenclature in practice, plus common names and various syncretisms. Next, the structures of pyrrolidone and caprolactam are discussed, starting with the X-ray crystal structures of pyrrolidone, N-methylpyrrolidone (NMP) and caprolactam. The conformational flexibility and ring strain of the two ring systems are also covered.Physical properties, such as dipole moments, the enthalpies of formation, vaporization and fusion, boiling points and melting points, are described. An attempt is made to put the properties of pyrrolidones and caprolactams into context with those of other lactams, amides and even lactones and cyclic ketones. Brønsted and Lewis basicity, acidity, hydrogen bonding and solubility are covered.Finally, a brief description of the basic reactivity of pyrrolidones and caprolactams is given. Topics covered are N-, O-, and α-C-alkylation, hydrolysis, reactions with organometallics, reduction, oxidation, and ring-opening polymerization. The intent is to give a concise physical organic perspective on reactivity (and stability) more than an extended treatise on synthetic elaborations. Definition and Nomenclature of LactamsLactams are cyclic amides in which both the carbonyl carbon and nitrogen atom of the amide group are part of a ring. The name, lactam, is a portmanteau of lactone (cyclic ester) and amide.Nomenclature of lactams follows a variety of conventions (Figure 1 and Table 1). The International Union of Pure and Applied Chemistry (IUPAC) recommends naming lactams as heterocyclic pseudoketones (IUPAC method 1) or by substituting lactam for the

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Modular Routes Towards New N,O‐Bidentate Ligands Containing an Electronically Delocalised β‐Enaminone Chelating Backbone

Cited by 19 publications

References 44 publications

Bidentate and Tetradentate β‐Aminovinyl Trifluoromethylated Ketones and Their Copper(II) Complexes: Synthesis, Characterization and Redox Chemistry

Bidentate and Tetradentate β‐Aminovinyl Trifluoromethylated Ketones and Their Copper(II) Complexes: Synthesis, Characterization and Redox Chemistry

Square‐Planar 2‐Toluenido(triphenylphosphane)nickel(II) Complexes Containing Bidentate N,O Ligands: An Example of Planar Chirality

Introduction to Pyrrolidone and Caprolactam Chemistry

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