Search results for " Catalysis"

showing 10 items of 585 documents

2H -[1,3]Oxazino[3,2-α]indolin-4(3H )-ones: A Class Of Polyheterocyclic Indole-Based Compounds

2018

Indole testClass (set theory)Acid catalysis010405 organic chemistryStereochemistryChemistryOrganic ChemistryPhysical and Theoretical Chemistry010402 general chemistry01 natural sciences0104 chemical sciencesEuropean Journal of Organic Chemistry
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The Reactions of Electron-Rich Heterocycles with Derivatives of Orthocarboxylic Acids; VIII. Proton Acid-Catalyzed Acylation of Indoles by 2-Alkoxy-1…

1987

In acid-catalyzed reactions with 3-unsubstituted indoles 1, 2-alkoxy-1,3-dioxolanes 2a-c behave as acyl equivalents. Depending on the substitution patterns of the reaction partners, the 1,3-dioxolanium ions 3a-c, generated in situ from the cyclic ortho esters by the action of sulfosalicylic acid, react to form tris-(3-indolyl)alkanes 6 and 9, bis-(3-indolyl)ethenes 7, or 3-benzoylindoles 8. Analogous reactivity was observed with related acyclic ortho esters. Reaktionen elektronenreicher Heterocyclen mit Orthocarbonsaure-Derivaten; VIII. Protonsaurekatalysierte Acylierung von Indolen mit 2-Alkoxy-1,3-dioxolanen 2-Alkoxy-1,3-dioxolane 2a-c reagieren als Acylaquivalente mit 3-unsubstituierten …

Indole testSulfosalicylic acidBicyclic moleculeStereochemistryPharmaceutical ScienceMedicinal chemistryAcylationchemistry.chemical_compoundAcid catalysischemistryDrug DiscoveryAlkoxy groupReactivity (chemistry)OrthoesterArchiv der Pharmazie
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Regioselective proton-catalyzed diarylmethylation of indoles with 9H-xanthydrol, dibenzosuberenol, and bis[4-dimethylaminophenyl]methanol

1988

3-Isopropylindole (4) is xanthenylated both at N-1 (stereocontrolled major reaction), C-2, and on the phenyl nucleus of the indole skeleton by xanthydrol (1). Other carbinols such as dibenzosuberenol (2) and bis[4-dimethylaminophenyl]methanol (3) with lower electrophilic SN1 activities than 1 do not react with 4 but do react very selectively with simple methylindoles to form diarylmethylated derivatives.

Indole testchemistry.chemical_compoundAcid catalysisBicyclic moleculeChemistryOrganic ChemistryElectrophileRegioselectivityOrganic chemistryMethanolXanthydrolMedicinal chemistryCatalysisJournal of Heterocyclic Chemistry
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Synthesis of Functionalized Indoles with a Trifluoromethy-Substituted Stereogenic Tertiary Carbon Atom Through an Enantioselective Friedel-Crafts Alk…

2010

[EN] Chiral complexes of BINOL-based ligands with zirconium tert-butoxide catalyze the Friedel-Crafts alkylation reaction of indoles with beta-trifluoromethyl-alpha,beta-unsaturated ketones to give functionalized indoles with an asymmetric tertiary carbon center attached to a trifluoromethyl group. The reaction can be applied to a large number of substituted alpha-trifluoromethyl enones and substituted indoles. The expected products were obtained with good yields and ees of up to 99%.

IndolesHydrocarbons FluorinatedAlkylationEnonesStereoisomerismAlkylationElectrophilic aromatic substitutionLigandsMedicinal chemistryCatalysisCatalysisStereocenterchemistry.chemical_compoundAsymmetric catalysisOrganic chemistryCombinatorial Chemistry TechniquesAromatic substitutionFriedel–Crafts reactionTrifluoromethylMolecular StructureChemistryOrganic ChemistryEnantioselective synthesisStereoisomerismGeneral ChemistryKetonesCarbonFISICA APLICADAZirconiumFluorinated compounds
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Organocatalytic Enantioselective Friedel–Crafts Aminoalkylation of Indoles in the Carbocyclic Ring

2016

The first general catalytic method for the, so far elusive, enantioselective Friedel−Crafts functionalization of indoles in the carbocyclic ring is presented. This transformation contrasts with the usual tendency of these heterocycles to react at the azole ring. For this purpose, the four regioisomeric hydroxy carbocyclic-substituted indoles were reacted with several isatinderived ketimines, using a Cinchona alkaloid-based squaramide, in a low 0.5−5 mol % catalyst loading, as a bifunctional catalyst. This methodology allows the functionalization of indoles in every position of the carbocyclic ring in a regio- and enantioselective fashion, by switching only the position of the hydroxy group …

IndolesIsatin-derived ketiminesCinchona010402 general chemistryRing (chemistry)01 natural sciencesCatalysisReductive eliminationFriedel−Crafts reactionPhenolsAsymmetric catalysisOrganic chemistryFriedel–Crafts reactionbiologyOrganocatalysis010405 organic chemistryChemistrySquaramideEnantioselective synthesisQuímicaGeneral Chemistrybiology.organism_classification0104 chemical sciencesBifunctional catalystFISICA APLICADAOrganocatalysisACS Catalysis
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A Three-Component Palladium-Catalyzed Oxidative CC Coupling Reaction: A Domino Process in Two Dimensions

2013

IndolesOxidative CouplingComponent (thermodynamics)ChemistryKineticschemistry.chemical_elementEstersStereoisomerismHomogeneous catalysisStereoisomerismGeneral MedicineGeneral ChemistryPhotochemistryBoronic AcidsCarbonCatalysisCoupling reactionCatalysisKineticsPolymer chemistryOxidative coupling of methaneta116PalladiumPalladiumAngewandte Chemie International Edition
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Utilization of dense carbon dioxide as an inert solvent for chemical syntheses

2010

InertSolventchemistry.chemical_compoundSupercritical carbon dioxide chemical syntheses polymerizationPolymerizationChemistryCarbon dioxideOrganic chemistryHomogeneous catalysisSettore ING-IND/27 - Chimica Industriale E TecnologicaHeterogeneous catalysisEnzyme catalysis
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Supported Single Atom Catalysts for C−H Activation: Selective C−H Oxidations, Dehydrogenations and Oxidative C−H/C−H Couplings

2021

Inorganic ChemistryChemistryOrganic ChemistryAtom (order theory)Oxidative coupling of methaneOxidative phosphorylationPhysical and Theoretical ChemistryHeterogeneous catalysisMedicinal chemistryCatalysisCatalysisChemCatChem
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Heteropolyacid‐Based Materials as Heterogeneous Photocatalysts (Eur. J. Inorg. Chem. 1/2014)

2014

Inorganic ChemistryChemistryOrganic chemistryHeterogeneous catalysisEuropean Journal of Inorganic Chemistry
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Benzoato and Thiobenzoato Ligands in the Synthesis of Dinuclear Palladium(III) and ‐(II) Compounds: Stability and Catalytic Applications

2015

New palladium(III) compounds of formula Pd2[(C6H4)PPh2]2[OXC(C6H5)]2Cl2 [3a (X = O); 3b (X = S)] were obtained by the oxidation of the analogous palladium(II) ones with PhICl2 and were characterized by 31P, 1H, and 13C NMR spectroscopy at 223 K. Compound 3a was also structurally characterized by single-crystal X-ray diffraction methods, which revealed a Pd–Pd distance of 2.5212(10) A. DFT calculations were conducted to study the stability of all of these new palladium(III) and -(II) compounds with focus on the influence of the OS substitution of the donor atom in the ligand. The palladium(II) compounds Pd2[(C6H4)PPh2]2[OXC(C6H5)]2 [2a (X = O), 2b (X = S)] were also tested as precatalyst in …

Inorganic ChemistryIndole testLigandChemistryYield (chemistry)Substrate (chemistry)chemistry.chemical_elementOrganic chemistryHomogeneous catalysisElectrochemistryMedicinal chemistryCatalysisPalladiumEuropean Journal of Inorganic Chemistry
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