Search results for "RUTHENIUM NANOPARTICLES"

showing 2 items of 2 documents

The Pyridyl Functional Groups Guide the Formation of Pd Nanoparticles Inside A Porous Poly(4-Vinyl-Pyridine)

2015

The reactivity of palladium acetate inside a poly(4-vinylpyridine-co-divinylbenzene) polymer is strongly influenced by the establishment of interaction between the Pd precursor and the pyridyl functional group in the polymer. Diffuse reflectance infrared Fourier transform spectroscopy (DRIFTS) and simultaneous X-ray absorption near edge structure (XANES) and small angle X-ray scattering (SAXS) techniques have been applied to monitor the reactivity of palladium acetate in the presence of H-2 and CO as a function of temperature. H-2 reduces palladium acetate to Pd nanoparticles and acetic acid. The pyridyl groups in the polymer play a vital role both in stabilizing the formed acetic acid, thu…

INFRARED-SPECTRADiffuse reflectance infrared fourier transformpolymersmall angle X-ray scatteringInfrared spectroscopychemistry.chemical_elementPALLADIUM(II) ACETATEIR spectroscopy; nanoparticles; palladium; polymers; small angle X-ray scattering; X-ray absorption spectroscopyPhotochemistryCatalysisCatalysisInorganic ChemistryAcetic acidchemistry.chemical_compoundRUTHENIUM NANOPARTICLESPARTICLE FORMATIONENVIRONMENTALLY BENIGNReactivity (chemistry)Physical and Theoretical ChemistryCARBON-MONOXIDEpolymerschemistry.chemical_classificationPOLYMERIC SUPPORTSnanoparticleIN-SITUOrganic ChemistryIR spectroscopy; nanoparticles; palladium; polymers; small angle X-ray scattering; X-ray absorption spectroscopy; Inorganic Chemistry; Organic Chemistry; Physical and Theoretical Chemistry; CatalysisX-ray absorption spectroscopyPolymerpalladiumchemistryIR spectroscopynanoparticlesPalladium(II) acetateTRANSITION-METAL COORDINATIONRESOLVED SAXS ANALYSISPalladium
researchProduct

Formation and growth of palladium nanoparticles inside porous poly(4-vinyl-pyridine) monitored by operando techniques: The role of different reducing…

2017

In this work we followed the formation of palladium nanoparticles, starting from palladium (II) acetate precursor, inside a poly(4-vinylpyridine-co-divinylbenzene) polymer in presence of different reducing agents. The formation and growth of palladium nanoparticles in presence of H-2 was followed as a function of temperature by simultaneous XANES-SAXS techniques, coupled with DRIFT spectroscopy in operando conditions. It was found that the pyridyl functional groups in the polymer plays a fundamental role in the stabilization of the palladium (II) acetate precursor, as well as in the stabilization of the palladium nanoparticles. The effect of a thermal treatment in alcohol (ethanol and 2-pro…

inorganic chemicalsReducing agentInfrared spectroscopychemistry.chemical_element02 engineering and technologyThermal treatment010402 general chemistryPhotochemistry01 natural sciencesAEROBIC ALCOHOL OXIDATIONCatalysisCatalysiCatalysisP4VPRUTHENIUM NANOPARTICLESMoleculeOrganic chemistryOperandoCATALYTIC-ACTIVITYchemistry.chemical_classificationPD NANOPARTICLESDRIFT; Operando; P4VP; Palladium nanoparticles; SAXS; XANESChemistryIN-SITUChemistry (all)SAXSGeneral ChemistryPolymerPalladium nanoparticleSELECTIVE OXIDATION021001 nanoscience & nanotechnologyPalladium nanoparticlesXANESX-RAY-SCATTERINGPARTICLE-SIZE0104 chemical sciencesDRIFTColloidal goldGOLD NANOPARTICLESVIBRATIONAL PROPERTIESDRIFT; Operando; P4VP; Palladium nanoparticles; SAXS; XANES; Catalysis; Chemistry (all)0210 nano-technologyPalladiumCatalysis Today
researchProduct