Litcius/Paper detail

Dynamic Features of Transition States for β‐Scission Reactions of Alkenes over Acid Zeolites Revealed by AIMD Simulations

Jérôme Rey, Charles Bignaud, Pascal Raybaud, Tomáš Bučko, Céline Chizallet

2020Angewandte Chemie19 citationsDOI

Abstract

Abstract Zeolite‐catalyzed alkene cracking is key to optimize the size of hydrocarbons. The nature and stability of intermediates and transition states (TS) are, however, still debated. We combine transition path sampling and blue moon ensemble density functional theory simulations to unravel the behavior of C 7 alkenes in CHA zeolite. Free energy profiles are determined, linking π‐complexes, alkoxides and carbenium ions, for B 1 (secondary to tertiary) and B 2 (tertiary to secondary) β‐scissions. B 1 is found to be easier than B 2 . The TS for B 1 occurs at the breaking of the C−C bond, while for B 2 it is the proton transfer from propenium to the zeolite. We highlight the dynamic behaviors of the various intermediates along both pathways, which reduce activation energies with respect to those previously evaluated by static approaches. We finally revisit the ranking of isomerization and cracking rate constants, which are crucial for future kinetic studies.

Topics & Concepts

IsomerizationAlkeneTransition stateChemistryCarbenium ionZeoliteCrackingBond cleavageComputational chemistryCatalysisDensity functional theoryIonPhotochemistryPhysical chemistryOrganic chemistryZeolite Catalysis and SynthesisAdvanced NMR Techniques and ApplicationsAdvanced Chemical Physics Studies