Effect of surface macrodefects on the mechanism of oxygen interaction with the boundary layer of Fe2O3

Reactivity of Solids Pub Date : 1990-06-01 DOI:10.1016/0168-7336(90)80006-6

F. Adam , B. Dupré , C. Gleitzer , J. Janowski , J. Nowotny★ , M. Sloma

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引用次数: 3

Abstract

The interaction between gaseous oxygen and the surface of sintered polycrystalline Fe₂O₃ was studied by using “in situ” work function measurements at 1140 K (867°C). The treatment of the specimen (after preliminary sintering at 1673 K in air) involved polishing of the oxide surface with a diamond powder resulting in the formation of a high density of grooves of different orientations along the surface. Sorption of oxygen on the freshly polished surface resulted in the formation of a positive surface charge which has been considered in terms of the formation of subsurface microdipoles, induced either by specific active centres formed during the mechanical treatment, or by donors formed at the same centres. The centres were closely related to the presence of grooves. The charge decreased during the thermal treatment and finally changed in sign. It was also observed that the treatment led to disappearance of grooves except some with specific orientation. The time of the equilibration, whose rate is controlled by the surface diffusion, was about 300 h at 1140 K.

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表面宏观缺陷对氧与Fe2O3边界层相互作用机理的影响

在1140 K(867℃)温度下，采用原位功函数法研究了气态氧与烧结多晶Fe2O3表面的相互作用。试样的处理(在1673 K空气中初步烧结后)包括用金刚石粉抛光氧化物表面，从而沿着表面形成高密度的不同方向的凹槽。新抛光表面上氧气的吸附导致表面正电荷的形成，这被认为是由机械处理过程中形成的特定活性中心或在同一中心形成的供体引起的表面下微偶极子的形成。这些中心与凹槽的存在密切相关。电荷量在热处理过程中逐渐减小，最终发生符号变化。还观察到，除了一些具有特定取向的凹槽外，处理导致凹槽消失。在1140 K下，平衡时间约为300 h，其速率由表面扩散控制。

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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Reactivity of Solids

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