Solution Combustion Synthesis of ZnO Using Binary Fuel (Glycine + Citric Acid)

Solution Combustion Synthesis of ZnO Using Binary Fuel (Glycine + Citric Acid)

Solution combustion synthesis (SCS) of zinc oxide was performed using a binary fuel, glycine and citric acid. It was established that combustion occurs due to oxidation of zinc nitrate–glycine complexes. Citric acid acts as an inhibitor of SCS reaction. An increase in relative content of organic fue...

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Bibliographic Details
Published in:International journal of self-propagating high-temperature synthesis Vol. 28; no. 4; pp. 226 - 232
Main Authors: Khaliullin, Sh. M., Zhuravlev, V. D., Ermakova, L. V., Buldakova, L. Yu, Yanchenko, M. Yu, Porotnikova, N. M.
Format: Journal Article
Language:English
Published: Moscow Pleiades Publishing 01-10-2019
Springer Nature B.V
Subjects:
Agglomerates
Annealing
Carbon
Catalytic activity
Chemistry and Materials Science
Citric acid
Combustion synthesis
Combustion temperature
Decomposition reactions
Fragments
Fuels
Glycine
Hydroquinone
Materials Science
Oxidation
Photocatalysis
Photodecomposition
Wurtzite
Zinc oxide
Zinc oxides
binary fuel
photocatalytic activity
zinc oxide
temperature profiles
solution combustion synthesis
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Summary:Solution combustion synthesis (SCS) of zinc oxide was performed using a binary fuel, glycine and citric acid. It was established that combustion occurs due to oxidation of zinc nitrate–glycine complexes. Citric acid acts as an inhibitor of SCS reaction. An increase in relative content of organic fuel in the solution leads to a reduction in maximal combustion temperature and to formation of elemental carbon (0.2–1.6 wt %) and organic fragments (1.55–3.29 wt %) in SCS-produced zinc oxide. Carbon impurity and organic fragments were removed by annealing at 600°С. The produced wurtzite-type ZnO crystals had a size of 27–37 nm and were assembled into agglomerates. After annealing at 500°С, the specific surface of the powder was 8.44–11.09 m 2 /g. The photocatalytic activity of ZnO powder was evaluated from the rate of hydroquinone photodecomposition in solution.
ISSN:1061-3862
1934-788X
DOI:10.3103/S1061386219040058