Identifying the roles of acid–base sites in formation pathways of tolualdehydes from acetaldehyde over MgO-based catalysts

Author(s)

Lusardi, Marcella R. (Marcella Rose); Struble, Thomas J; Teixeira, Andrew R.; Jensen, Klavs F

Abstract

Pure and Al-substituted MgO catalysts are studied to identify the contributions of acid-base sites in the formation of two valuable xylene analogs, ortho- and para-tolualdehydes, from an ethanol derivative, acetaldehyde. The catalyst properties are characterized through XRD, ²⁷Al MAS NMR, ICP-AES, N₂ physisorption, TPD-MS, and DRIFTS experiments. Reactivity comparisons of untreated and CO₂-titrated catalysts at 250 °C, coupled with CO₂ DRIFTS studies on fresh and spent samples, indicate the formation of tolualdehydes from intermediates is initiated through deprotonation by a medium-strength basic site in a specific, metal-oxygen (M-O)-type coordination environment. Analyses of the catalytic surface properties and reactivity, pathways of formation, and natural bond orbital (NBO) charge distribution suggest C₄ + C₄ (rather than C₂ + C₆) mechanistic steps dominate tolualdehyde production over these catalysts under the investigated reaction conditions. Isomeric selectivity to ortho-tolualdehyde is 92 and 81 mol% over pure and Al-substituted MgO catalysts, respectively. We propose that the shift in isomeric selectivity towards para- upon introduction of a proximal Lewis acidic functionality (Al³⁺/MgO) to the catalyst is caused by electron redistribution in the conjugated enolate from the γ-C (forming ortho-) towards the α-C (forming para-) due to the carbonyl-O/Lewis acid coordination. This insight provides a framework for the development of next generation catalysts that give improved reactivity in cascade reactions of C₂ feedstocks to aromatics.

Date issued

2019-12

URI

https://hdl.handle.net/1721.1/123802

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering
Massachusetts Institute of Technology. Department of Chemical Engineering

Journal

Catalysis Science & Techonology

Publisher

Royal Society of Chemistry (RSC)

Citation

Lusardi, Marcella et al. "Identifying the roles of acid–base sites in formation pathways of tolualdehydes from acetaldehyde over MgO-based catalysts." Catalysis Science & Techonology 10, 2 (January 2020): 536-548 © 2020 Royal Society of Chemistry

Version: Final published version

ISSN

2044-4753

2044-4761