Optimization Study on Formation and Decomposition of Zinc Hydroxynitrates to Pure Zinc Oxide Nanoparticles in Supercritical Water

In the present study, synthesis and decomposition of zinc hydroxynitrates, i.e., Zn(NO3)(OH)·H2O, Zn5(NO3)2(OH)8·2H2O, and Zn3(OH)4(NO3)2 into ZnO nanoparticles were investigated at supercritical conditions by combination of Taguchi experiment design method, analysis of variance (ANOVA), and complem...

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Bibliographic Details
Published in:Industrial & engineering chemistry research 2013-01, Vol.52 (4), p.1448-1454
Main Authors: Ahmadi, Seyed Javad, Hosseinpour, Morteza, Javadi, Farzad, Tayebee, Reza
Format: Article
Language:English
Subjects:
Analysis of variance
Decomposition
Formations
Nanoparticles
Synthesis
Zinc
Zinc oxide
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Summary:In the present study, synthesis and decomposition of zinc hydroxynitrates, i.e., Zn(NO3)(OH)·H2O, Zn5(NO3)2(OH)8·2H2O, and Zn3(OH)4(NO3)2 into ZnO nanoparticles were investigated at supercritical conditions by combination of Taguchi experiment design method, analysis of variance (ANOVA), and complementary verifying experiments. First, the effect of several important parameters such as temperature, residence time, and initial nitrate salt concentration and its pH on “purity” of synthesis particles (e.g., ZnO) was studied using an orthogonal experiment design methodology coupled with instrumental analysis such as powder X-ray diffraction, Fourier-transform infrared spectroscopy, transmission electron microscopy, and thermo-gravimetric analysis. Then ANOVA was performed on the data and the best conditions for the synthesis of pure ZnO nanoparticles were attained. The second aim was the elucidation of formation and decomposition mechanism of hydroxinitrates by combining the statistical results and additional experiments which influential parameters were investigated independently. It was found that the initial pH of zinc nitrate alongside temperature had the most effects on formation of Zn5(NO3)2(OH)8·2H2O as the first product of the formation reaction, while at higher temperatures it was converted to Zn3(OH)4(NO3)2 which in turn decomposed to ZnO nanoparticles as an ultimate product.
ISSN:0888-5885
1520-5045
DOI:10.1021/ie3026218