金属-氧化物-流体界面的行为

2000 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.00CH37132) Pub Date : 2000-10-15 DOI:10.1109/CEIDP.2000.884074

Y. Julliard, K. Kist, R. Badent, A. Schwab

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引用次数: 2

摘要

电极表面现象在流光形成中起主要作用。金属电极上总是覆盖着氧化层，从而改变了金属表面的电学和化学性质。半导体金属氧化物结构出现在表面。在实验中，将氧化物覆盖的金属电极浸入液体中。在金属-氧化物-液体界面处建立了具有内外亥姆霍兹平面的双层结构和随后的扩散层。进出液体的电荷输运是由金属-氧化物-双层结构的电学性质控制的。拖缆的引入改变了这些表面层的结构，并导致界面和液体体的重组。本文采用渗透理论概念建立了金属-氧化物-液体界面的行为模型，并对实验中使用的电极表面结构进行了实验研究。介绍了黄铜电极上的氧化层以及流光起始对电极表面的影响。

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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Behaviour of the metal-oxide-fluid-interface

Surface phenomena at electrodes play a major role in streamer inception. Metal-electrodes are always covered with oxide-layers, changing the electrical and chemical properties of the metal-surface. Semiconducting metal-oxide structures arise at the surface. For experiments, oxide covered metal electrodes are dipped into the liquid. A double layer-structure with an inner and outer Helmholtz plane and a subsequent diffuse layer are established at the metal-oxide-liquid interface. Charge transport from and into the liquid is controlled by the electrical properties of the metal-oxide-double-layer structure. Streamer inception modifies the structure of these surface layers and leads to restructuring at the interface and in the liquid bulk. A model for the behaviour of the metal-oxide-liquid interface using percolation theory concepts is presented as well as experimental investigations of surface structures of electrodes used in experiments. Oxide layers found on brass electrodes as well as the impact of streamer inception on electrode surfaces is presented.

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来源期刊

2000 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (Cat. No.00CH37132)

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