2006
DOI: 10.1007/s11244-006-0072-z
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MoVW mixed metal oxides catalysts for acrylic acid production: from industrial catalysts to model studies

Abstract: MoVW) 5 O 14 -type oxides were identified as the active and selective components in industrial acrylic acid catalysts. Tungsten is suggested to play an important role as a structural promoter in the formation and stabilization of this oxide. Vanadium is responsible for high catalytic activities but is detrimental for the stability of this oxide at the necessary high concentrations for optimum catalytic performance. The activity of mixed MoVW oxide catalysts for methanol, propene, and acrolein partial oxidation… Show more

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Cited by 43 publications
(28 citation statements)
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“…The in situ analytical results described above and the concept of site isolation preclude, however, the view that a reactive dimer ''antenna site'' may be connected to the bulk of the M1 phase acting as collective electron storage unit. Such an idea [73] put forward for other mixed metal species contradicts the site isolation concept as it would not allow to control the timing of substrate oxidation and oxygen reduction and thus violate the concept of minimization of reactive species for maximising selectivity. The exchange of electrophilic oxygen for redox equivalents is a facile process [56,[74][75][76] when the site can easily change its oxidation state without having to break bonds to many neighbouring atoms.…”
Section: Size and Functions Of Active Sitesmentioning
confidence: 99%
“…The in situ analytical results described above and the concept of site isolation preclude, however, the view that a reactive dimer ''antenna site'' may be connected to the bulk of the M1 phase acting as collective electron storage unit. Such an idea [73] put forward for other mixed metal species contradicts the site isolation concept as it would not allow to control the timing of substrate oxidation and oxygen reduction and thus violate the concept of minimization of reactive species for maximising selectivity. The exchange of electrophilic oxygen for redox equivalents is a facile process [56,[74][75][76] when the site can easily change its oxidation state without having to break bonds to many neighbouring atoms.…”
Section: Size and Functions Of Active Sitesmentioning
confidence: 99%
“…The method is, however, particularly attractive for (mixed) molybdenum oxides, which have high potential as catalysts in the selective oxidation of hydrocarbons [17][18][19][20][21][22]. Various preparation routes are known for the hydrothermal synthesis of molybdenum trioxide in the shape of ribbons, rods or nanobelts [12,[23][24][25][26][27][28].…”
Section: Introductionmentioning
confidence: 99%
“…In many publications it is described as the phase responsible for the catalytic activity towards ACR oxidation to AA. 21,34,43,46,52,53 As shown in the recent sections the reoxidation of the reduced catalysts and the treatment under oxidising/reactive conditions always force the formation of Mo 5 O 14 which is stable in dependency on the particle size. 43 The decomposition of Mo 5 O 14 only sets in at temperatures 4430 1C.…”
Section: Models For Bulk and Reactionmentioning
confidence: 91%
“…Slight anomalies in the structures lead to small surface energies and allow the transport of O 2À ions through the phase boundary. 18 Often the so-called core-shell or cherrylike model are found in the literature: 21 on the surface there is a phase that provides a large number of active centres. The bulk phase is characterised by high electronic conductivity and ion mobility.…”
Section: Transition Metal Oxides and Their Function In Selective Oxidmentioning
confidence: 99%