Abstract

BOTCHWAY, Cecil H. et al. H-FER-Catalyzed Conversion of Methanol to Ethanol and Dimethyl Ether: a First-Principles DFT Study. S.Afr.j.chem. (Online) [online]. 2021, vol.74, pp.30-35. ISSN 1996-840X.  http://dx.doi.org/10.17159/0379-4350/2021/v74a6.

Methanol adsorption and dehydration reactions within zeolites represent important steps in the catalytic conversion process to form long-chain hydrocarbons. Herein, first-principles density functional theory (DFT) is employed in the determination of methanol adsorption and conversion in ferrierite (FER), where we predict the fundamental adsorption geometries and energetics of methanol adsorption. The methanol molecule is shown to physisorb at all explored binding sites, stabilized through hydrogen-bonded interactions with the acid site atO_meth-H_frambond distances ranging from 1.33-1.51 A. We demonstrate that the zeolites' adsorption capability is affected by the silicon/aluminium ratio, with stronger adsorptions predicted in the material with silicon to aluminium fractions of 5 than 8. The adsorption strength is also found to vary depending on the tetrahedral binding site, with the T1O2 site yielding the most stable methanol adsorption structure in the Si/Al ratio = 5(E_ads = -22.5 kcal mol^-1), whereas the T1O1 site yields the most stable adsorption geometry (E_ads = -19.2 kcal mol^-1) in the Si/Al ratio = 8. Upon translational and rotational motion, methanol is protonated resulting in the breaking of its C-O bond to form a methoxy species bound to the framework oxygen (O-CH₃ distance of 1.37 A), whereas the water molecule is stabilized at the acid site through H-bonding (O_wat-H = 2.0 A). Further reaction between the methoxy species and a second methanol molecule results in the formation of ethanol and protonated dimethyl ether, with adsorption energies of -42 and -25 kcal mol^-1, respectively. The results in this study provide atomistic insight into the effect of acidity of the FER zeolite on the adsorption and conversion of methanol.

Keywords : Zeolites; ferrierite; methanol adsorption; acid sites; density functional theory (DFT).

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