金属前驱体溶胶老化时间段-相组成与氧化锆纳米粉体纹理特性之间的相关性

Eva Mitkova, Irina Stambolova, Daniela Stoyanova, V. Toteva, Ognian Dimitrov
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摘要

本文研究了从使用络合剂稳定的丁氧化锆溶胶中获得的氧化锆粉末的老化时间对四方相(T)和巴德来特晶相(B)的体积相分数、孔径分布和孔体积的影响。实验证明,老化时间会影响氧化锆这两种多晶体之间的比例。与其他两种粉末相比,Zr3d 样品中的巴德来特相含量最高,结晶也最大。随着老化时间的延长,T 相的(101)峰强度逐渐增加,而无论老化时间长短,所有样品都具有微孔。与其他两种粉末相比,老化时间最长的样品具有更高的孔体积和平均孔直径。所制备的 ZrO2 纳米粉末的物理化学特征可用作不同催化反应的催化剂/光催化剂、缓蚀剂颗粒等。
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CORRELATION BETWEEN AGING TIME PERIOD OF METAL PRECURSOR SOL – PHASE COMPOSITION AND TEXTURAL PROPERTIES OF ZIRCONIA NANOPOWDERS
This article investigates the effect of the time of aging of ZrO2 powders, obtained from zirconium butoxide sols, stabilized using complexating agents on the volume phase fractions tetragonal phase (T) and baddeleyite crystalographic phase (B), pore size distribution and pore volume. It was proved that the aging time period influences ratio between these two polymorphs of zirconia. The sample Zr3d possesses the largest content of baddeleyite phase having the greatest crystallites in comparison to another two powders. The increasing of aging period leads to a gradual increase in (101) peak intensity of T phase, while all the samples are microporous regardless of the aging time. The longest time aged sample possesses higher pore volume and higher average pore diameter than the other two powders. The physico-chemical features of the prepared ZrO2 nanosized powders could be beneficial as catalysts/photocatalysts in different catalytic reactions, corrosion inhibition particles, etc.
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Journal of Chemical Technology and Metallurgy
Journal of Chemical Technology and Metallurgy Engineering-Industrial and Manufacturing Engineering
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1.40
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