The topochemistry of the reaction interface in decomposition processes in solids

Reactivity of Solids Pub Date : 1990-07-01 DOI:10.1016/0168-7336(90)80022-C

Andrew K. Galwey

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引用次数: 14

Abstract

A number of recent mechanistic studies of thermal decompositions of solids are discussed here with emphasis on the chemistry of the reactions involved. It is argued that greater insight into the sequence of steps participating can be achieved when kinetic observations are complemented with microscopic examinations and chemical analyses of the partially reacted salt as well as the final products. Comparisons with comparable reactions can also be valuable in providing insight into the mechanisms of solid state reactions.

A classification of the roles of nuclei is discussed with reference to a number of selected rate processes. Three types of nuclei are distinguished, these are: functional nuclei, the solid product is a catalyst for the changes proceeding at the reaction interface, fusion nuclei, chemical reaction proceeds preferentially in a molten zone which may be localized and temporary, and fluid-flux nuclei, reaction proceeds in a zone of fluid, condensed product temporarily retained within the nucleus.

It is argued that complementary measurements considered together, (kinetics, microscopy and analyses) provide greater insight into the chemistry of reactions of solids than is usually possible from studies using a less comprehensive experimental approach.

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固体分解过程中反应界面的拓扑化学

本文讨论了最近固体热分解的一些机理研究，重点是所涉及的反应的化学性质。有人认为，当动力学观察与部分反应盐以及最终产物的显微检查和化学分析相辅相成时，可以更深入地了解参与步骤的顺序。与同类反应的比较也有助于深入了解固态反应的机理。参考一些选定的速率过程，讨论了原子核作用的分类。三种类型的核被区分出来，它们是:功能核，固体产物是在反应界面上进行变化的催化剂;聚变核，化学反应优先在可能是局部的和暂时的熔融区进行;流体通量核，反应在流体区进行，凝聚产物暂时保留在核内。有人认为，与通常使用不太全面的实验方法的研究相比，综合考虑的互补测量(动力学，显微镜和分析)可以更深入地了解固体反应的化学性质。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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