光触媒，臭氧或过氧化氢对含有CN^-离子的水溶液的分解

Shigen-to-sozai Pub Date : 2006-11-25 DOI:10.2473/SHIGENTOSOZAI.122.489

佐貫須美子, 拓史山本, 正輝持舘

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引用次数: 0

摘要

研究了TiO2光催化剂、臭氧和/或过氧化氢对CN-离子的分解反应。主要发现如下:1)溶解氧的存在是光催化分解CN-离子的必要条件。用TiO2催化剂将CN-氧化为CNO-，再氧化为CO32-和NO3-。CNO-对CO32-和NO3-的氧化反应远慢于CN-对CNO-的氧化反应。CNO-在ph7和ph10下的光催化氧化反应明显快于ph12。2)臭氧氧化CN-的反应路径与光催化反应相同，但比光催化反应快。光催化剂与臭氧联合使用对CN-的分解效果更好。3)过氧化氢对CN-的分解产物为CNO-和N2。双氧水和光催化剂的联合使用促进了CN-生成N2的反应。

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光触媒, オゾンあるいは過酸化水素によるCN^-イオン含有水溶液の分解

Decomposition reactions of aqueous CN- ions by TiO2 photocatalyst, ozone and/or hydrogen peroxide were investigated. The principal findings obtained are as follows:1) The presence of dissolved oxygen was necessary to decompose aqueous CN- ions photocatalytically. CN- was oxidized to CNO- with TiO2 catalyst, and then to CO32- and NO3-. Oxidation reaction of CNO- to CO32- and NO3- was far slower compared to that of CN- to CNO-. Photocatalytic oxidation reaction of CNO- at pHs 7 and 10 proceeded distinctly faster compared to that at pH 12. 2) Although ozone oxidation of CN- took the same paths as photocatalytic reactions, but it was faster than that of photocatalytic routes. Combined use of photocatalyst and ozone for the decomposition of CN- was more efficient.3) Decomposition product of CN- with hydrogen peroxide was found as CNO- and N2. Joint use of hydrogen peroxide and photocatalyst promoted reaction of CN- to N2.

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