L. Forni scite author profile

A flame spray pyrolysis apparatus was set-up and optimised for the preparation of perovskitic mixed metal oxides in nanoparticle-size powder form. LaCoO3 was chosen as test catalyst, aiming at correlating crystallinity, surface area, particle size, catalytic activity and durability with some fundamental operating parameters of the apparatus. In particular, feeding rate of precursors solution, flow rate of the O2/CH4 mixture for the igniter and flow rate and linear velocity of the main dispersing-oxidising oxygen have been thoroughly analysed. The activity of the prepared samples was tested for the catalytic flameless combustion of methane, a reaction requiring a proper combination of activity and thermal stability of the catalyst. Provided a crystalline perovskitic phase forms, activity increases with increasing surface area of the powder. By contrast, the higher the initial sintering of catalyst particles within the flame, the higher is thermal stability. Tuning up of operating parameters allows to properly address the desired catalyst properties.

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Promoters effect in Ru/C ammonia synthesis catalyst

Rossetti

Pernicone²,

Forni

2001

Applied Catalysis A: General

124

101

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Mechanism of the hydroxide ion-initiated decomposition of ozone in aqueous solution

Forni¹,

Bahnemann²,

Hart³

1982

J. Phys. Chem.

202

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Catalytic combustion of methane over perovskites

Marchetti

Forni

1998

Applied Catalysis B: Environmental

171

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L. Forni

Pyridine and ammonia as probes for FTIR analysis of solid acid catalysts

Evolution of Extraframework Iron Species in Fe Silicalite

2,6-Di-Tert-Butyl-Pyridine as a Probe Molecule to Measure External Acidity of Zeolites

Photocatalytic hydrogen production over flame spray pyrolysis-synthesised TiO2 and Au/TiO2

Flame-spray pyrolysis preparation of perovskites for methane catalytic combustion

Promoters effect in Ru/C ammonia synthesis catalyst

Mechanism of the hydroxide ion-initiated decomposition of ozone in aqueous solution

Catalytic combustion of methane over perovskites

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