Synthesis of Mixed La–Al Oxides by Treatment in a Water Fluid Medium and Their Catalytic Properties in Methane Oxidation

The synthesis of mixed La–Al oxide systems with the atomic ratio La : Al = 1 : 1 was studied. At the first stage, a dried mass containing starch and La and Al nitrates was burned. Heat treatment of the resulting amorphous product at a temperature of ≥700°C gave LaAlO 3 aluminate with a cubic perovsk...

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Published inRussian journal of physical chemistry. B Vol. 17; no. 8; pp. 1593 - 1602
Main Authors Vasyutin, P. R., Sinev, M. Yu, Ivakin, Yu. D., Gordienko, Yu. A., Lagunova, E. A.
Format Journal Article
LanguageEnglish
Published Moscow Pleiades Publishing 01.12.2023
Springer Nature B.V
Subjects
Aluminates
Aluminum oxide
Chemical synthesis
Chemistry
Chemistry and Materials Science
Ethane
Heat treatment
Hydroxides
Lanthanum oxides
Methane
Mixtures
Oxidation
Perovskite structure
Perovskites
Phase composition
Physical Chemistry
Precursors
Roasting
synthesis
catalysts
mixed oxides
lanthanum oxide
lanthanum aluminate
water fluid
structure
methane oxidation
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Summary:The synthesis of mixed La–Al oxide systems with the atomic ratio La : Al = 1 : 1 was studied. At the first stage, a dried mass containing starch and La and Al nitrates was burned. Heat treatment of the resulting amorphous product at a temperature of ≥700°C gave LaAlO 3 aluminate with a cubic perovskite structure. The composition and morphology of the product formed by subsequent treatment in a water fluid (WF) medium (density 0.2 g/cm 3 , 415°C) depend on the degree of ordering of the precursor. Crystalline LaAlO 3 (cubic) in the WF medium undergoes additional ordering with a decrease in the specific surface area ( S sp ) while maintaining the crystalline structure; further calcination at 900°C did not lead to a change in either S sp or the structure. Treatment of an amorphous precursor in the WF medium increased S sp and produced a mixture of LaAlO 3 aluminates of cubic and orthorhombic structures and La and Al hydroxides. Further calcination at 900°C gave a mixture of LaAlO 3 (cubic), La 2 O 3 (hexagonal), and, possibly, X-ray amorphous Al 2 O 3 . The synthesized systems were studied as catalysts for methane oxidation. There was no correlation between activity and selectivity for oxidative coupling products (ethane + ethylene) with the S sp value; they were found to depend on the phase composition of the mixed La–Al oxide. The most efficient systems turned out to be those that underwent intermediate treatment in the WF medium and contained the LaAlO 3 (cubic) and La 2 O 3 (hexagonal) phases. The results obtained indicate the high structural sensitivity of the process characteristics.
ISSN:1990-7931
1990-7923
DOI:10.1134/S1990793123080043