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Understanding solvent effects on adsorption and protonation in porous catalysts

Nicholas S. Gould, Sha Li, Hong Je Cho, Harrison Landfield, Stavros Caratzoulas, Dionisios G. Vlachos, Peng Bai, Bingjun Xu

2020Nature Communications131 citationsDOIOpen Access PDF

Abstract

Solvent selection is a pressing challenge in developing efficient and selective liquid phase catalytic processes, as predictive understanding of the solvent effect remains lacking. In this work, an attenuated total reflection infrared spectroscopy technique is developed to quantitatively measure adsorption isotherms on porous materials in solvent and decouple the thermodynamic contributions of van der Waals interactions within zeolite pore walls from those of pore-phase proton transfer. While both the pore diameter and the solvent identity dramatically impact the confinement (adsorption) step, the solvent identity plays a dominant role in proton-transfer. Combined computational and experimental investigations show increasingly favorable pore-phase proton transfer to pyridine in the order: water < acetonitrile < 1,4 - dioxane. Equilibrium methods unaffected by mass transfer limitations are outlined for quantitatively estimating fundamental thermodynamic values using statistical thermodynamics.

Topics & Concepts

AdsorptionSolventAcetonitrileZeoliteNanoporousCatalysisChemistryProtonationvan der Waals forcePorosityMass transferPhase (matter)Porous mediumProtonDesorptionThermodynamicsMaterials sciencePhysical chemistryOrganic chemistryMoleculeChromatographyIonPhysicsQuantum mechanicsZeolite Catalysis and SynthesisCatalysis for Biomass ConversionSurface Chemistry and Catalysis
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