Search results for "nucleophilic substitution"

showing 10 items of 72 documents

ChemInform Abstract: Synthesis of Bis(indolylmaleimide) Macrocycles

2000

The synthesis of a novel class of macrocyclic bis(indolylmaleimides) is reported. The key step involves the intermolecular connection of 2,2′-bridged indoles with 3,4-dibromo-2,5-dihydro-1H-2,5-pyrroledione (dibromomaleimide) derivatives. The bis(indolylmaleimides) afforded by this method were further processed by intramolecular nucleophilic substitution of the remaining bromo substituents forming flexible N-substituted macrocycles (9a-9j, 10a-10e) and, by connecting both maleimides, semi rigid macrocycles (7a-7xx).

Bis-indolylmaleimideChemistryIntramolecular forceIntermolecular forcePolymer chemistryNucleophilic substitutionGeneral MedicineChemInform

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Synthesis of bis(indolylmaleimide) macrocycles

2000

Bis-indolylmaleimideChemistryIntramolecular forceOrganic ChemistryIntermolecular forceNucleophilic substitutionMedicinal chemistryJournal of Heterocyclic Chemistry

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Synthesis, biological evaluation, and: In silico studies of novel chalcone: In pyrazoline-based 1,3,5-triazines as potential anticancer agents

2020

A novel series of triazin-chalcones (7,8)a-g and triazin-N-(3,5-dichlorophenyl)pyrazolines (9,10)a-g were synthesized and evaluated for their anticancer activity against nine different cancer strains. Triazine ketones 5 and 6 were synthesized from the cyanuric chloride 1 by using stepwise nucleophilic substitution of the chlorine atom. These ketones were subsequently subjected to a Claisen-Schmidt condensation reaction with aromatic aldehydes affording chalcones (7,8)a-g. Then, N-(3,5-dichlorophenyl)pyrazolines (9,10)a-g were obtained by cyclocondensation reactions of the respective chalcones (7,8)a-g with 3,5-dichlorophenylhydrazine. Among all the evaluated compounds, chalcones 7d,g and 8g…

ChalconeGeneral Chemical EngineeringCyanuric chloridePyrazolineTriazine derivatives01 natural sciencesClaisen Schmidt condensation03 medical and health scienceschemistry.chemical_compoundNucleophilic substitutionNucleophilic substitution030304 developmental biologyTriazinechemistry.chemical_classification0303 health sciences010405 organic chemistryLigandBiological evaluationGeneral ChemistryCondensation reactionCombinatorial chemistryCyclocondensation reaction0104 chemical sciencesEnzymechemistryAnticancer activitieThymidylate synthasePotential anticancer agent

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Organometallic nucleophiles. Mechanism of halide displacement at saturated carbon by 2-pyridyl and 4-Pyridyl complexes [M(dmtc)(C5H4N-Cn)(L)] (M  Pd…

1992

Abstract A mechanistic study is reported of nucleophilic halide substitution by pyridyl complexes [M(dmtc)C 5 H 4 N- C 2 )(L)] (M  Pd or Pt; L  PMe 3 , PEt 3 or PPh 3 ) and [Pd(dmtc)C 5 H 4 N- C 4 )(L)] (L  PMe 3 or PPh 3 ) on organic halides XCH 2 R (X  Cl or Br; R  CHCH 2 , COMe, Ph, or CN) in various solvents, yielding the pyridylium derivatives [M(dmtc)1-CH 2 R)C 5 H 4 N- C 2 (L)] + and [Pd(dmtc)(1-CH 2 R)(C 5 H 4 N- C 4 (L)] + , respectively. The kinetics obey a second-order rate law: rate  k 2 [XCH 2 R][Complex]. A similar rate law is observed for the analogous reactions involving 4-dimethyl-aminopyridine (4-dmapy) as the nucleophile. The effects of solvent and leaving group, a…

ChemistryStereochemistryOrganic ChemistrySubstituentLeaving groupHalideBiochemistryMedicinal chemistryInorganic Chemistrychemistry.chemical_compoundReaction rate constantNucleophilePyridineMaterials ChemistryNucleophilic substitutionPhysical and Theoretical ChemistrySolvent effectsJournal of Organometallic Chemistry

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High Yield SNAr on 8-Halogenophenyl-BODIPY with Cyclic and Acyclic Polyamines

2014

Selective nucleophilic aromatic substitutions with several polyamines were performed in very good yields on halogeno-phenyl BODIPY derivatives containing an activating nitro group.

ChemistryStereochemistryOrganic Chemistrymacromolecular substancesFluorescenceMedicinal chemistrychemistry.chemical_compoundNucleophileNucleophilic aromatic substitutionYield (chemistry)Nucleophilic substitutionNitroPhysical and Theoretical ChemistryBODIPYEuropean Journal of Organic Chemistry

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Methyl 4-[5-(4-fluorophenyl)-4-(pyridin-4-yl)-1H-imidazol-2-ylsulfanyl]butanoate

2008

The title compound, C19H18FN3O2S, was synthesized in the course of studies on 2-alkylsufanylimidazoles as p38 mitogen-activated protein kinase inhibitors. The synthesis was achieved by nucleophilic substitution of 4-(4-fluorophenyl)-5-(pyridin-4-yl)-1,3-dihydroimidazole-2-thione with methyl 4-bromobutanoate. The five-membered heterocycle makes dihedral angles of 32.4 (2) and 18.3 (2)° with the fluorophenyl and pyridinyl rings, respectively, indicating a low degree of conjugation between these rings. Intramolecular C—H...N and intermolecular N—H...N hydrogen bonds as well as C—H...π interactions seem to be effective in stabilization of the crystal stru…

CrystallographyQD901-999ChemistryHydrogen bondNucleophilic substitutionGeneral Materials ScienceGeneral ChemistryCrystal structureDihedral angleCondensed Matter PhysicsBioinformaticsOrganic PapersMedicinal chemistryActa Crystallographica Section E Structure Reports Online

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Fluorinated Heterocyclic Compounds− The First Example of an Irreversible Ring-Degenerate Rearrangement on Five-Membered Heterocycles by Attack of an …

2004

The reactions of 5-perfluoroalkyl-1,2,4-oxadiazoles 3 with hydroxylamine in DMF give the regioisomeric 3-perfluoroalkyl-1,2,4-oxadiazoles 4 in excellent yields. This process is the first example of ring-degenerate rearrangement (RDR) occurring on five-membered heterocycles by attack of an external bidentate nucleophile, which replaces two heteroatoms of the ring. We suggest that an ANRORC-like mechanism occurs in which the addition of the nucleophilic nitrogen atom (NH2OH) on the C(5) atom of 3 is followed by ring opening and irreversible ring-degenerate closure by attack of the nucleophilic oxygen atom (=NOH) on the C(3) atom of the original ring, realizing an elegant and efficient synthes…

DenticityStereochemistryrearrangementOrganic ChemistryHeteroatomDegenerate energy levelsAtom (order theory)General MedicineRing (chemistry)Medicinal chemistrychemistry.chemical_compoundHydroxylaminechemistryNucleophilering-ring interconversionNucleophilic substitutionAb initio computationsnucleophilic substitutionPhysical and Theoretical ChemistryheterocycleEuropean Journal of Organic Chemistry

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On the structure of 3-acetylamino-5-methyl-1,2,4-oxadiazole and on the fully degenerate rearrangements (FDR) of its anion: a stimulating comparison b…

2009

An accurate crystal structure determination has provided evidence for a planar conformation for 3-acetylamino-5-methyl-1,2,4-oxadiazole (5), in agreement with quantum-mechanical calculations in the gas phase. In the crystal, a series of strong intermolecular N7H7….O9 hydrogen bonds link the amido groups of different molecules, causing the formation of infinite parallel ordered chains. The effect of the DMSO solvent on the energy and charge distribution of compound 5 and on its relevant 5− anion, involved in a fully degenerate rearrangement (FDR), has been deepened by quantum-mechanical DFT calculations. The calculated energy barrier for the FDR increases in going from in vacuo to DMSO, in a…

DeprotonationComputational chemistryHydrogen bondChemistryOrganic ChemistryIntermolecular forceNucleophilic substitutionSide chainMoleculeCrystal structurePhysical and Theoretical ChemistryRing (chemistry)Journal of Physical Organic Chemistry

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Are one-step aromatic nucleophilic substitutions of non-activated benzenes concerted processes?

2019

Aromatic nucleophilic substitution (SNAr) reactions of non-electrophilically activated benzenes have been studied within the Molecular Electron Density Theory (MEDT) at the B3LYP/6-311+G(d) computational level. These reactions, taking place through a one-step mechanism, present a high activation Gibbs free energy, ΔG≠ = 31.0 kcal mol-1, which decreases to 22.1 kcal mol-1 in the intramolecular process. A topological analysis of the electron localisation function along the reaction paths permits establishing the non-concerted nature of these SNAr reactions. A series of unstable structures, with similar electronic structures to those of Meisenheimer intermediates, are characterised. The presen…

Electron density010405 organic chemistryChemistryOrganic ChemistryOne-Step010402 general chemistry01 natural sciencesBiochemistry0104 chemical sciencesGibbs free energysymbols.namesakeNucleophileNucleophilic aromatic substitutionComputational chemistryIntramolecular forcesymbolsNucleophilic substitutionSingle bondPhysical and Theoretical ChemistryOrganicbiomolecular chemistry

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Glycidyl Tosylate: Polymerization of a “Non‐Polymerizable” Monomer permits Universal Post‐Functionalization of Polyethers

2019

Abstract Glycidyl tosylate appears to be a non‐polymerizable epoxide when nucleophilic initiators are used because of the excellent leaving group properties of the tosylate. However, using the monomer‐activated mechanism, this unusual monomer can be copolymerized with ethylene oxide (EO) and propylene oxide (PO), respectively, yielding copolymers with 7–25 % incorporated tosylate‐moieties. The microstructure of the copolymers was investigated via in situ 1H NMR spectroscopy, and the reactivity ratios of the copolymerizations have been determined. Quantitative nucleophilic substitution of the tosylate‐moiety is demonstrated for several examples. This new structure provides access to a librar…

Ethylene oxidering-opening polymerization010405 organic chemistryCommunicationLeaving groupEpoxideGeneral Chemistry010402 general chemistry01 natural sciencesRing-opening polymerizationCommunicationsCatalysis0104 chemical scienceschemistry.chemical_compoundMonomerchemistryPolymerizationpolyetherPolymer chemistryCopolymerNucleophilic substitutionRing‐Opening Polymerizationfunctionalizationpoly(ethylene oxide)poly(propylene oxide)Angewandte Chemie International Edition

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