The structure and catalytic properties of amorphous phase in MoVTeO catalysts for propane ammoxidation

The structure and catalytic properties of amorphous phase in MoVTeO catalysts for propane ammoxidation. •The amorphous MoVTe phase contains nanosized domain with M1 and M2 structures.•The presence of the M1 phase is confirmed by powder Debye simulation.•Nanostructured MoVTe catalysts are active and...

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Bibliographic Details
Published in:Applied catalysis. A, General General, 2014-04, Vol.476, p.91-102
Main Authors: Ishchenko, E.V., Andrushkevich, T.V., Popova, G.Ya, Kardash, T.Yu, Ishchenko, A.V., Dovlitova, L.S., Chesalov, Yu.A.
Format: Article
Language:English
Subjects:
Amorphous structure
Catalysis
Catalysts
Crystallites
Heat treatment
M1 phase
Mathematical models
MoVTe catalyst
Nanosized clusters
Nanostructure
Propane
Propane ammoxidation
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Summary:The structure and catalytic properties of amorphous phase in MoVTeO catalysts for propane ammoxidation. •The amorphous MoVTe phase contains nanosized domain with M1 and M2 structures.•The presence of the M1 phase is confirmed by powder Debye simulation.•Nanostructured MoVTe catalysts are active and selective in propane ammoxidation.•Nanostructured MoVTe M1 phase remains up to 450°C. This work presents an investigation of the chemical and phase composition of Mo1.0V0.3Te0.23Ox catalyst prepared by spray drying. The changes in the catalyst after heat treatment at 220–550°C were characterized by IR and Raman spectroscopy, XRD, HRTEM and differential dissolution methods. In the range of temperature 400–420°C HRTEM revealed the presence of nanoscaled crystallites that are structurally and chemically related to M1 and M2 phases and randomly distributed in the amorphous matrix. The characteristic diffraction pattern of the amorphous product can be described by a model of nano-sized clusters built from the structure of M1 phase. Nanostructured catalysts are active and selective in propane ammoxidation. The increase of temperature of heat treatment of the catalyst above 450°C leads to decomposition of nanostructured M1 phase and crystallization of M2 and a series of vanadium–molybdenum phases. The process is accompanied by a decrease in activity.
ISSN:0926-860X
1873-3875
DOI:10.1016/j.apcata.2014.02.022