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Chloromethoxyl and dichloromethoxyl formation on zeolite ZnY, an in situ NMR and flow reactor study (1996)

Krawietz, Thomas R. ; Goguen, Patrick W. ; Haw, James F.

Springer

Catalysis letters 42 (1996), S. 41-45

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ISSN: 1572-879X

Keywords: dichloromethane ; chloroform ; zeolite ; alkoxyl ; 13C MAS NMR

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract In situ13C and27Al MAS NMR and flow reactor studies were used to study the decomposition of dichloromethane and chloroform on zeolite ZnY. The initially formed products were framework-bound chloromethoxyl (from dichloromethane) and dichloromethoxyl (from chloroform) species, analogous to the non-halogenated alkoxyls observed in previous investigations. The principal components of the13C chemical shift tensors were: chloromethoxyl,δ 11 = 116 ppm,δ 22 = 79 ppm andδ 33 = 37 ppm; dichloromethoxyl,δ 11 = 128 ppm,δ 22 = 91 ppm andδ 33 = 65 ppm. Formation of both species occurred at 298 K, and each decomposed at 423 K. This decomposition formed HCl which dealuminated the zeolite (as monitored by27Al MAS NMR) causing deactivation (flow reactor studies). Further evidence for the destruction of the zeolite was the NMR observation of CO formation, implying incorporation of oxygen from zinc hydroxyl or framework sites. Although ZnY is shown to be unsuitable for catalytic chlorocarbon destruction, the observation of chloromethoxyl and dichloromethoxyl species is significant, and the formation of halogenated alkoxyl species should be considered in future investigations of halocarbon chemistry on oxides and molecular sieves.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00814465

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In situ NMR of heterogeneous catalysis: new methods and opportunities (1999)

Haw, James F.

Springer

Topics in catalysis 8 (1999), S. 81-86

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ISSN: 1572-9028

Keywords: NMR ; zeolite ; mechanism

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract In situ NMR has been extensively applied in the past decade to obtain basic mechanistic information about reactions in heterogeneous catalysis. Most studies in the literature have employed either sealed glass ampoules of catalyst and adsorbate that are heated outside of the NMR probe or variable temperature studies of samples sealed in magic‐angle spinning (MAS) rotors. In situ NMR studies of sealed samples fail to duplicate the conditions of temperature, reagent introduction and product removal found in bench‐top microreactor studies of catalysis. Previous attempts to more closely duplicate the conditions in flow reactors have motivated NMR studies using temperature jumps and the development of MAS probes with reagent flow. These methods have not yet achieved the time scales of several seconds or tenths of seconds that are typical of catalytic reactions. The pulse‐quench catalytic reactor has been developed to permit NMR studies of catalyst samples that have been prepared under actual reaction conditions. Pulse‐quench studies have provided evidence in support of a carbon‐pool mechanism for methanol‐to‐gasoline chemistry on HZSM‐5 and led to the identification of a pentamethylbenzenium cation formed in a zeolite by the alkylation of benzene with excess methanol.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1019140506645

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