Search results for "Reaction rates"

showing 4 items of 4 documents

The rate of polymerization in two loci reaction systems: VDF-HFP precipitation copolymerization in supercritical carbon dioxide

2011

When the copolymerization of vinylidene fluoride (VDF) and hexafluoropropylene (HFP) is carried out in supercritical carbon dioxide (scCO 2) under heterogeneous conditions, the reaction occurs both in the continuous CO 2-rich phase and in the dispersed polymer-rich phase. The two phases being characterized by different values of reactant concentrations and kinetic parameters, one would expect that the reaction kinetics is affected by the polymer phase holdup in the reactor. However, the reaction rate is almost insensitive to the amount of produced polymer, at least at specific reaction conditions. This apparent contradiction is discussed and clarified in this paper by a series of comparativ…

Materials sciencePolymers and PlasticsRich phaseChemical kineticsReaction ratechemistry.chemical_compoundSupercritical carbon dioxideCopolymerCopolymerizationPhase (matter)Single phasePolymer chemistryMaterials ChemistryCopolymerHeterogeneous conditionPolymerRate of polymerizationReaction systemchemistry.chemical_classificationSupercritical carbon dioxideHexafluoropropyleneExperimental investigationComparative simulationGeneral ChemistryPolymerComputer simulationReaction rates Supercritical fluid extractionReactant concentrationchemistryPolymerizationChemical engineeringReaction conditionVinylidene fluoride Carbon dioxideHeterogeneous polymerizationHexafluoropropylenePolymer phasePolymer Engineering & Science
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Dynamic Effects on Reaction Rates in a Michael Addition Catalyzed by Chalcone Isomerase. Beyond the Frozen Environment Approach

2008

We present a detailed microscopic study of the dynamics of the Michael addition reaction leading from 6'-deoxychalcone to the corresponding flavanone. The reaction dynamics are analyzed for both the uncatalyzed reaction in aqueous solution and the reaction catalyzed by Chalcone Isomerase. By means of rare event simulations of trajectories started at the transition state, we have computed the transmission coefficients, obtaining 0.76 +/- 0.04 and 0.87 +/- 0.03, in water and in the enzyme, respectively. According to these simulations, the Michael addition can be seen as a formation of a new intramolecular carbon-oxygen bond accompanied by a charge transfer essentially taking place from the nu…

Models MolecularReaction ratesMechanicsBiochemistryChemical reactionCatalysisReaction coordinateReaction rateMolecular dynamicsCharge transferChalconesColloid and Surface ChemistryNucleophileComputational chemistryChemical reactionsFreezingIntramolecular LyasesReaction kineticsFourier AnalysisChemistryIntermolecular forceWaterGeneral ChemistryCarbonDynamicsKineticsModels ChemicalReaction dynamicsChemical physicsIntramolecular forceFlavanonesQuantum TheoryThermodynamicsIon exchangeJournal of the American Chemical Society
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Approach Matters : The Kinetics of Interfacial Inverse-Electron Demand Diels-Alder Reactions

2017

Rapid and quantitative click functionalization of surfaces remains an interesting challenge in surface chemistry. In this regard, inverse electron demand Diels Alder (IEDDA) reactions represent a promising metal-free candidate. Herein, we reveal quantitative surface functionalization within 15 min. Furthermore, we report the comprehensive effects of substrate stereochemistry, surrounding microenvironment and substrate order on the reaction kinetics as obtained via a combination of XPS and surface-bound mass spectrometry (DART-MS).

Reaction ratesKinetics010402 general chemistry01 natural sciencesCatalysisReaccions químiquesReaction rateChemical kineticsComputational chemistryOrganic chemistryInverse electron-demand Diels–Alder reactionDiels-Alder reactionCycloadditionDiels–Alder reactionVLAGMass spectrometry010405 organic chemistryChemistryCommunicationOrganic ChemistrySubstrate (chemistry)General ChemistryOrganische ChemieCommunicationsCycloaddition0104 chemical sciencesDiels–Alder reactionSurface modificationOrganic surface chemistryQuímica orgànicaChemistry-A European Journal
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Comparison of the generation II with IV heterogeneous Ziegler-Natta catalysts used in propylene polymerizations

1998

An unsupported TiCl3-based catalyst (generation II), modified with n-butyl ether and AlEt2Cl3, was compared with a MgCl2/dibutyl phthalate/AlEt3/cyclohexylmethyldimethoxysilane catalyst system (generation IV) in propylene polymerizations. The latter (magnesium-supported) was fund to be more than 20 times as active as the former and more stereospecific, but to yield PP with a lower molecular weight (Table 2). The kinetics of the polymerizations studied with either of the catalyst, and involving the determination of concentrations of active sites [C0*] and elementary reaction rate constants (Table 4) based on earlier kinetic models, showed the C0*-values in the magnesium-supported catalyst to…

active sitestitanium catalyst of generation IIelementary reaction ratesTi-Mg catalyst of generation IVkinetics of propylene polymerizationPolimery
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