Preparation of Ir/IrO_x pH electrode based on melt-oxidation and its response mechanism investigation 被引量：2

Preparation of Ir/IrO_x pH electrode based on melt-oxidation and its response mechanism investigation

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摘要 A method of melt-oxidation at high temperature is adopted to prepare Ir/IrOx pH electrode, and different carbonates such as Li2CO3, K2CO3, Na2CO3 and their mixture were used in this process. It is shown that the （electrode） prepared in carbonate melt has good pH response characteristics, such as stability, sensitivity, response time, and anti-corrosion ability in the solution containing F-, etc. The hysteresis mechanism was also investigated based on a storage model with a cyclic voltammetry experiment. It is found that the valence of Ir in the oxide film is +4, and the iridium oxide on the surface of the film is co-ordinate with -OH and H2O from the result of XPS spectra. The mole fraction ratio of Ir to O is 1∶2.1 in the bulk of the oxide, but x（Ir）∶x（O） is 1∶6.78 on the surface of the oxide film by EDX technology. The hydration effect of the thermally prepared iridium oxide was investigated. Therefore, a H+ response mechanism is suggested, being much different from the reported theory for thermally prepared iridium oxide electrode, which previously does not take the hydration of oxide into consideration. A method of melt-oxidation at high temperature is adopted to prepare Ir/IrO_x pH electrode, and different carbonates such as Li_2CO_3, K_2CO_3, Na_2CO_3 and their mixture were used in this process. It is shown that the (electrode) prepared in carbonate melt has good pH response characteristics, such as stability, sensitivity, response time, and anti-corrosion ability in the solution containing F^-, etc. The hysteresis mechanism was also investigated based on a storage model with a cyclic voltammetry experiment. It is found that the valence of Ir in the oxide film is +4, and the iridium oxide on the surface of the film is co-ordinate with -OH and H_2O from the result of XPS spectra. The mole fraction ratio of Ir to O is 1∶2.1 in the bulk of the oxide, but x(Ir)∶x(O) is 1∶6.78 on the surface of the oxide film by EDX technology. The hydration effect of the thermally prepared iridium oxide was investigated. Therefore, a H^+ response mechanism is suggested, being much different from the reported theory for thermally prepared iridium oxide electrode, which previously does not take the hydration of oxide into consideration.

作者陈东初郑家燊付朝阳

机构地区 Department of Chemistry

出处《中国有色金属学会会刊：英文版》 CSCD 2003年第6期1459-1464,共6页 Transactions of Nonferrous Metals Society of China

关键词碱金属氧化熔化制备电极铱响应机制 pH electrode iridium oxide mechanism

分类号 O646 [理学—物理化学]

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参考文献25

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中国有色金属学会会刊：英文版

2003年第6期

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Preparation of Ir/IrO_x pH electrode based on melt-oxidation and its response mechanism investigation 被引量：2

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