Search results for "hydrogenation"

showing 10 items of 155 documents

1988

chemistry.chemical_compoundPhenylacetylenechemistryHead to headDopingAnalytical chemistryChemical modificationInfrared spectroscopyDehydrogenationPhotochemistryElectrical conductorDie Makromolekulare Chemie, Rapid Communications
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ChemInform Abstract: Baeyer-Villiger Oxidation of Ketones with a Silica-Supported Peracid in Supercritical Carbon Dioxide under Flow Conditions.

2009

[2-Percarboxyethyl]-functionalized silica reacts with ketones in supercritical carbon dioxide at 250 bar and 40 °C under flow conditions to yield the corresponding esters and lactones. The solid reagent can be easily recycled through treatment with 70% hydrogen peroxide in the presence of an acid at 0 °C. This procedure not only simplifies the isolation of the reaction products, but has the advantage of using only water and carbon dioxide as solvents under mild conditions.

chemistry.chemical_compoundSupercritical carbon dioxidechemistryYield (chemistry)ReagentCarbon dioxideOrganic chemistryDehydrogenationGeneral MedicineHydrogen peroxideBaeyer–Villiger oxidationBar (unit)ChemInform
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Phospholylmethano P-chirogenic-phosphine-borane as P-(η2-BH3)-chelating ligands of rhodium (I): Synthesis, characterization and asymmetric hydrogenat…

2021

International audience; The stereoselective synthesis of new phospholylmethano P-chirogenic-phosphine-borane was achieved by P-C bond formation of the bridge, using electrophilic or nucleophilic P*-building blocks. These P1CH2P2*.BH3 ligands behaved as chelating (κ1-P1)-(η2-BH3) entities towards the cationic rhodium(I) centre. The resulting chiral rhodium complexes were tested in asymmetric rhodium catalyzed hydrogenation of methyl 2-(acetamido)acrylate.

chemistry.chemical_elementBorane010402 general chemistry01 natural sciencesBiochemistryMedicinal chemistryRhodiumCatalysisInorganic Chemistrychemistry.chemical_compoundNucleophileMaterials Chemistry[CHIM.COOR]Chemical Sciences/Coordination chemistryPhysical and Theoretical Chemistry010405 organic chemistryOrganic ChemistryAsymmetric hydrogenationCationic polymerizationStereoselective synthesis0104 chemical sciences3. Good healthP-chirogenic phosphine ligandCoordination chemistrychemistryAsymmetric hydrogenationElectrophilePhosphine
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Applications and stereoselective syntheses of P-chirogenic phosphorus compounds.

2016

International audience; Phosphorus compounds bearing chirality on the P-center are usually qualified as P-chirogenic or P-stereogenic. This chemical class concerns natural products, agrochemistry, molecular materials, biology and pharmacy, although it is certainly in coordination chemistry and in asymmetric catalysis using chiral transition metal complexes that P-chirogenic phosphorus compounds are the most used. The chiral phosphine ligands and their uses in asymmetric metal-catalyzed reactions have been widely reviewed in literature. However, an overview covering the applications as well as the stereoselective syntheses of all classes of phosphorus compounds has not yet been provided. Thi…

chemistry.chemical_elementring-closing metathesis010402 general chemistryenantioselective transfer hydrogenation[ CHIM ] Chemical Sciences01 natural sciencesCoordination complexcatalyzed asymmetric hydrogenationchemistry.chemical_compoundactive phosphine oxides[CHIM]Chemical Scienceschiral diphosphine ligandsOrganic chemistryMolecular materialstransition-metal catalysischemistry.chemical_classificationacyl-transfer catalysts010405 organic chemistryPhosphorusEnantioselective synthesisc migration rearrangementGeneral Chemistry0104 chemical scienceschemistrytert-butylphenylphosphine oxideStereoselectivityray crystal-structureChirality (chemistry)PhosphineChemical Society reviews
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Reduction and catalytic behaviour of heterobimetallic copper–lanthanide oxides

2008

Abstract The reduction of the heterobimetallic copper–lanthanide oxides 2CuO·CeO2 and 3CuO·Ln2CuO4 (Ln = La, Pr, Nd) was studied by H2-TG/DTA and H2-TPR. All systems exhibit two main reduction steps accompanied by mass losses in the temperature range 20–1000 °C. The first step was attributed to CuO reduction, whereas the second step is due either to copper reduction in the Ln2CuO4 phase with the concomitant formation of Ln2O3 or to the surface reduction of CeO2. The products were characterized by XRD, SEM, EDX, and BET techniques and are better described as supported copper type materials. They were active for the mesityl oxide (4-methyl-2-penten-2-one) gas phase hydrogenation.

heterobimetallic copper–lanthanide oxidesLanthanideCopper oxideInorganic chemistrychemistry.chemical_element02 engineering and technology[CHIM.INOR]Chemical Sciences/Inorganic chemistry010402 general chemistryHeterogeneous catalysis01 natural sciencesCatalysischemistry.chemical_compoundmesityl oxide hydrogenationMesityl oxideTransition metalDifferential thermal analysisMaterials ChemistryComputingMilieux_MISCELLANEOUSreduction studiesintermetallic compoundsMechanical EngineeringMetals and Alloys[ CHIM.INOR ] Chemical Sciences/Inorganic chemistry021001 nanoscience & nanotechnologyCopper0104 chemical scienceschemistryMechanics of Materials0210 nano-technologyJournal of Alloys and Compounds
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Effect of atomic layer deposited zinc promoter on the activity of copper-on-zirconia catalysts in the hydrogenation of carbon dioxide to methanol

2023

Funding Information: The work at Aalto University has been financially supported by the Academy of Finland (COOLCAT consortium, decision no. 329977 and 329978 ; ALDI consortium, decision no. 331082 ). This work made use of Aalto University Bioeconomy, OtaNano and RawMatters infrastructure. Hannu Revitzer (Aalto University) is thanked for the ICP-OES analysis, Aalto workshop people (especially Seppo Jääskeläinen) for working on the reactor modifications. The DFT calculations were made possible by computational resources provided by the CSC — IT Center for Science, Espoo, Finland ( https://www.csc.fi/en/ ) and computer capacity from the Finnish Grid and Cloud Infrastructure (urn:nbn:fi:resear…

hiilidioksidiProcess Chemistry and TechnologyAtomic layer depositionMethanolkupariatomikerroskasvatus114 Physical sciencesCatalysismetanolikatalyytitCarbon dioxidesinkkioksidiZinc oxideHydrogenationhydrausCopperGeneral Environmental Science
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Oxidative dehydrogenation of ethane: A study over the structure and robustness of Ni–W–O catalysts

2014

[EN] The robustness of one selected Ni-W-O catalyst has been studied in the oxidative dehydrogenation of ethane. This catalyst initially deactivates for the first 10 h online decreasing 15% of its catalytic activity compared to its initial stable catalytic activity. However from 10 to 60 h online the catalytic activity keeps almost stable. On the other hand, it has been shown that the Ni-W-O catalyst cannot tolerate an oxygen-free atmosphere (C-2 and He) as nickel oxide is transformed into metallic nickel. Methane and hydrogen as well as abundant coke were formed on the surface of the catalyst in these O-free conditions. However a re-calcination in air leads to the removal of coke, the cata…

inorganic chemicalsEthyleneHydrogenGeneral Chemical EngineeringCatalyst supportInorganic chemistryEnergy Engineering and Power Technologychemistry.chemical_elementCatalysisMethaneCatalysisEthylenechemistry.chemical_compoundDehydrogenationNickel tungstenOxidative dehydrogenation of ethaneOxide catalystsEthaneChemistryorganic chemicalsNickel oxideCokeFuel TechnologyNi-W-OHydrogenOxidative dehydrogenationFuel Processing Technology
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Optimized bath for electroless deposition of palladium on amorphous alumina membranes

2006

A new bath for the electroless deposition of palladium on anodic alumina (AA) membranes is proposed. It was found that the optimal conditions for the uniform deposition of palladium, with minimal damage to the AA membranes, were under conditions of pH 8.4 and plating times shorter than 30 min. The deposited Pd layer was detected by X-ray diffraction (XRD) and energy dispersive X-ray (EDX) analysis. The morphology of the AA membrane before and after plating was examined by scanning electron microscopy (SEM). EDX analysis revealed that palladium was deposited only on the surfaces of the membrane and Sn ions, coming from the sensitizing bath, were incorporated into the palladium layer. EDTA in…

inorganic chemicalsMaterials scienceScanning electron microscopeInorganic chemistrychemistry.chemical_elementSurfaces and InterfacesGeneral ChemistryCondensed Matter PhysicsSurfaces Coatings and FilmsAmorphous solidMembranechemistryAluminiumPlatingMaterials ChemistryFourier transform infrared spectroscopyElectroless deposition Palladium Dehydrogenation Anodic alumina membranesLayer (electronics)PalladiumSurface and Coatings Technology
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Oxidative Dehydrogenation of Ethanol on Gold : Combination of Kinetic Experiments and Computation Approach to Unravel the Reaction Mechanism

2021

Abstract Selective alcohol dehydrogenation on heterogeneous catalysts is a key industrial reaction for production of aldehydes, ketones, and carboxylic compounds. Design of catalysts with improved activity and selectivity requires understanding of the reaction mechanism and kinetics. Herein, experiments, density functional theory (DFT) and kinetic modelling were combined to elucidate the mechanism and kinetics of ethanol oxidative dehydrogenation to acetaldehyde on gold catalysts. Catalytic experiments clearly emphasized the role of oxygen in this reaction. Ethanol conversion was rather independent on the gold cluster size. Formation of minor products, acetic acid and ethyl acetate was stru…

inorganic chemicalsReaction mechanismetanoliethanol oxidationEthyl acetatemechanismAlcohol010402 general chemistryHydrogen atom abstractionreaktiomekanismit01 natural sciences7. Clean energyDFTCatalysiskultaCatalysischemistry.chemical_compoundAcetic acidComputational chemistryDehydrogenationPhysical and Theoretical Chemistryasetaldehydikemialliset reaktiot010405 organic chemistryAcetaldehydegold0104 chemical scienceschemistrykineticskatalyysi
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Nanolayered Cobalt-Molybdenum Sulfides as Highly Chemo- and Regioselective Catalysts for the Hydrogenation of Quinoline Derivatives

2018

[EN] Herein, a general protocol for the preparation of a broad range of valuable N-heterocyclic products by hydrogenation of quinolines and related N-heteroarenes is described. Interestingly, the catalytic hydrogenation of the N-heteroarene ring is chemoselectively performed when other facile reducible functional groups, including alkenes, ketones, cyanides, carboxylic acids, esters, and amides, are present. The key to successful catalysis relies on the use of a nanolayered cobalt-molybdenum sulfide catalyst hydrothermally synthesized from earth-abundant metal precursors. This heterogeneous system displays a tunable composition of phases that allows for catalyst regeneration. Its catalytic …

inorganic chemicalsSulfidechemistry.chemical_element010402 general chemistryHeterogeneous catalysis01 natural sciencesCatalysisCatalysisMetalchemistry.chemical_compoundQUIMICA ORGANICAChemo-/regioselective hydrogenationN-heterocycleschemistry.chemical_classificationHeterogeneous catalysis010405 organic chemistryQuinolineRegioselectivityGeneral ChemistryCombinatorial chemistry0104 chemical sciencesCo-Mo-S catalystschemistryMolybdenumvisual_artvisual_art.visual_art_mediumQuinolinesCobalt
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