2017
DOI: 10.1016/j.jcat.2017.03.007
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Benzene co-reaction with methanol and dimethyl ether over zeolite and zeotype catalysts: Evidence of parallel reaction paths to toluene and diphenylmethane

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Cited by 73 publications
(91 citation statements)
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References 265 publications
(416 reference statements)
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“…Furthermore, previous mechanistic studies point to a reaction between sorbed species as the rate‐determining step of both hydrogen‐transfer reactions (leading to the first C−C bond formation; i.e. to initiation of the MTH reaction) and alkene/arene methylation reactions (the propagation reactions of the dual‐cycle MTH mechanism) . The rate of such reactions generally increases upon increasing the coverage of the active site, which is, in this case, induced by a higher acid strength.…”
Section: Resultsmentioning
confidence: 97%
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“…Furthermore, previous mechanistic studies point to a reaction between sorbed species as the rate‐determining step of both hydrogen‐transfer reactions (leading to the first C−C bond formation; i.e. to initiation of the MTH reaction) and alkene/arene methylation reactions (the propagation reactions of the dual‐cycle MTH mechanism) . The rate of such reactions generally increases upon increasing the coverage of the active site, which is, in this case, induced by a higher acid strength.…”
Section: Resultsmentioning
confidence: 97%
“…Recently, however, studies in which methanol and DME were compared as methylating agents of benzene and isobutene, mainly over H‐ZSM‐5, yielded new insight into these reactions. Briefly, the studies revealed a key role of methanol and DME as hydrogen‐transfer agents between the alkene and arene cycles, as well as between monocyclic arenes and heavier analogues . Furthermore, hydrogen‐transfer reactions were found to take place at the Brønsted acid sites, whereas isolated Lewis acid sites had negligible activity for both the methylation and hydrogen‐transfer reactions .…”
Section: Resultsmentioning
confidence: 99%
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“…Here, further dehydration of the oxonium ion intermediates formed to surface methoxy groups when heated in the TPD experiment occurs with equal propensity due to equal stability of the methoxy group formation with DME or methanol adsorption. Also, the probability for DME protonation is about 2 times higher than methanol suggesting higher tendencies towards larger activation energies of desorption for DME [51].…”
Section: Comparing Desorption Of Methanol To Dmementioning
confidence: 96%
“…Martinez-Espin et al [34] have compared DTH vs. MTH a variety of catalyst (including H-ZSM-5 zeolite) concluding that the former has the following benefits compared with the latter: higher activity, lower yield of aromatics and ethylene (normally regarded as a secondary interest product) and slower deactivation. The same group [35,36] has pointed to the fact that DTH is faster than MTH is due to the faster and thermodynamically favored methylation over hydrogen transfer reactions (in principle unwanted). Li et al [37] proved similar behavior when SAPO-34 catalyst is used.…”
Section: Introductionmentioning
confidence: 99%