Formation of Zn- and Si-Based Oxide Systems: Analysis of Temperature Dependence of the Energy State

A. Brichkov, S. Kuznetsova, E. Mongush, Viktoriya U. Brichkova, A. Zabolotskaya, T. Glazneva
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Abstract

Abstract This article presents the results of the thermal analysis of dried colloidal solutions based on zinc nitrate with changes in tetraethoxysilane (TEOS) content. The main stages of the thermal decomposition of the dried sols were established and the activation energies of each stage were determined based on the results of thermogravimetric measurements using the Erofeev-Kolmogorov approach. For each stage, the products of thermal destruction in the gas phase were determined by mass-spectrometry. It was shown that the chemical decomposition in all samples started at a temperature above 200°C, and the temperature of zinc hydroxonitrate decomposition increased with increasing TEOS content in the ash, while the activation energy of that process decreased. X-ray diffraction analysis revealed that the thermal decomposition of dried sols at 600°C resulted in the formation of mixtures of ZnO in hexagonal syngony with amorphous SiO2 in amounts from 10 to 50 wt%.
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锌基和硅基氧化物体系的形成:能态的温度依赖性分析
摘要本文介绍了硝酸锌基干燥胶体溶液随TEOS含量变化的热分析结果。采用Erofeev-Kolmogorov方法确定了干燥后的溶胶的主要热分解阶段,并根据热重测量结果确定了各阶段的活化能。对于每一阶段,气相热破坏产物用质谱法测定。结果表明,所有样品的化学分解均在200℃以上开始,随着灰分中TEOS含量的增加,羟基硝酸锌分解温度升高,而该过程的活化能降低。x射线衍射分析表明,干燥的溶胶在600°C下的热分解导致ZnO与无定形SiO2的六方共晶混合物的形成,其数量在10 ~ 50%之间。
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