2013
DOI: 10.1021/jp4006795
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Methane Activation and Transformation on Ag/H-ZSM-5 Zeolite Studied with Solid-State NMR

Abstract: With regard to a general interest in methane utilization in a rational way the activation and transformation of methane on Ag-modified zeolite ZSM-5 (Ag/H-ZSM-5) have been studied with solid-state NMR. The activation of methane occurs by dissociation of the C–H bond on silver cations via the “carbenium” pathway: methane C–H bond cleavage results in the methoxy groups (O–CH3) and possibly silver-hydride species (Ag–H). The formation of surface methoxy groups on Ag/H-ZSM-5 has been detected experimentally with 1… Show more

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Cited by 77 publications
(115 citation statements)
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“…These observations indicates the direct involvement of copper species to the reaction mechanism . Figure shows 13 C HPDEC NMR spectra of reaction products as observed from 298 to 648 K. At ambient temperature, the only signal was the broad signal at ≈−6 ppm, corresponding to methane . The strong broadening is associated with the presence of paramagnetic Cu II species, which comprise most of the copper fraction in the activated copper‐exchanged mordenite.…”
Section: Resultsmentioning
confidence: 88%
“…These observations indicates the direct involvement of copper species to the reaction mechanism . Figure shows 13 C HPDEC NMR spectra of reaction products as observed from 298 to 648 K. At ambient temperature, the only signal was the broad signal at ≈−6 ppm, corresponding to methane . The strong broadening is associated with the presence of paramagnetic Cu II species, which comprise most of the copper fraction in the activated copper‐exchanged mordenite.…”
Section: Resultsmentioning
confidence: 88%
“…It has been proposed for Ag that the cationic species act as a Lewis acid that is able to abstract hydrogen from methane, while methane forms a methoxy‐species with the BAS (Figure ) …”
Section: C−h Bond Activationmentioning
confidence: 99%
“…Although most often ethylene, ethane and acetylene are proposed as reaction intermediates, higher intermediates are conceivable as well, especially if ethylene strongly adsorbs on the active metal and has to further react with gas‐phase CH 4 to desorb. This was speculated for Ag . Studying adsorption strength of ethylene at the active site however is difficult, since the structure of the active site formed at reaction conditions is unknown.…”
Section: C2 Intermediatesmentioning
confidence: 99%
“…The drop of Brønsted acid site amount is because some Ag + interacts with the oxygen of the bridging hydroxyl groups by replacing the protons (ion exchange effect). One need note that the silver ion-exchanged Brønsted acid sites also have the activity for hydrocarbon activation, 17,18 and it can recover quickly in the presence of hydrogen. 16 Unlike the Brønsted acid sites, both weak and strong Lewis acids increased from 0.0 Ag-NZ to 2.0 Ag-NZ.…”
Section: Acid Properties Of Hzsm-5mentioning
confidence: 99%