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Electrochemical Oxidation of Ammonia on Ir Anode in Potential Fixed Electrochemical Sensor 被引量:2

Electrochemical Oxidation of Ammonia on Ir Anode in Potential Fixed Electrochemical Sensor
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摘要 Ir catalyst possesses a good electrocatalytic activity and selectivity for the oxidation of NH3 and/or NH4OH at Ir anode in the potential fixed electrochemical sensor with the neutral solution. Owing to the same electrochemical behavior of NH3 and NH4OH in a NaClO4 solution, NH4OH can be used instead of NH3 for the experimental convenience. It was found that the potential of the oxidation peak of NH4OH at the Ir/GC electrode in NaClO4 solutions is at about 0.85 V, and the current density of the oxidation peak of NH4OH is linearly proportional to the concentration of NHaOH. The electrocatalytic oxidation of NH4OH is diffusion-controlled. Especially, Ir has no electrocatalytic activity for the CO oxidation, illustrating that CO does not interfere in the measurement of NH4OH and the potential fixed electrochemical NH3 sensor with the neutral solution, and the anodic Ir catalyst possesses a good selectivity. Therefore, Ir may have practical application in the potential fixed electrochemical NH3 sensor with the neutral solution. Ir catalyst possesses a good electrocatalytic activity and selectivity for the oxidation of NH3 and/or NH4OH at Ir anode in the potential fixed electrochemical sensor with the neutral solution. Owing to the same electrochemical behavior of NH3 and NH4OH in a NaClO4 solution, NH4OH can be used instead of NH3 for the experimental convenience. It was found that the potential of the oxidation peak of NH4OH at the Ir/GC electrode in NaClO4 solutions is at about 0.85 V, and the current density of the oxidation peak of NH4OH is linearly proportional to the concentration of NHaOH. The electrocatalytic oxidation of NH4OH is diffusion-controlled. Especially, Ir has no electrocatalytic activity for the CO oxidation, illustrating that CO does not interfere in the measurement of NH4OH and the potential fixed electrochemical NH3 sensor with the neutral solution, and the anodic Ir catalyst possesses a good selectivity. Therefore, Ir may have practical application in the potential fixed electrochemical NH3 sensor with the neutral solution.
作者 HAN Yi-ping LUO Peng CAI Chen-xin XIE Lei LU Tian-hong
机构地区 Department of Chemistry RAE Engineering Center
出处 《Chemical Research in Chinese Universities》 SCIE CAS CSCD 2008年第6期782-785,共4页 高等学校化学研究(英文版)
基金 Supported by RAE Engineering Center, RAE Systems Inc. Fund, China
关键词 IRIDIUM Potential fixed electrochemical sensor NH3 NH4OH Neutral solution Iridium Potential fixed electrochemical sensor NH3 NH4OH Neutral solution
分类号 O6 [理学—化学]
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参考文献19

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Chemical Research in Chinese Universities
2008年 第6期

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