Studies on Determination Method of Hydrogen Peroxide in Rain Water : Fluorometric Method Using p-Hydroxyphenylacetic Acid
The POPHA (p-hydroxyphenylacetic acid) fluorometric method for the determination of hydrogen peroxide (H2O2) in rain water was investigated. The optimum conditions for peroxidase on the formation of fluorescent POPHA dimer from H2O2 and POPHA are over 2 units/ml of peroxidase concentration and above...
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| Published in | Eisei kagaku Vol. 38; no. 4; pp. 334 - 341 |
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| Main Authors | , , |
| Format | Journal Article |
| Language | English Japanese |
| Published |
The Pharmaceutical Society of Japan
01.01.1992
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| Abstract | The POPHA (p-hydroxyphenylacetic acid) fluorometric method for the determination of hydrogen peroxide (H2O2) in rain water was investigated. The optimum conditions for peroxidase on the formation of fluorescent POPHA dimer from H2O2 and POPHA are over 2 units/ml of peroxidase concentration and above pH 5.0. The best conditions for catalase on the decomposition of H2O2 in the testing solutions as analytical blank are over 500 units/ml, over 2 min of reaction time and above pH 5.5. By this analytical method, the detectable range of H2O2 concentration is from 1 to 150 ng/ml and the coefficients of variation are below 5%. This method is hardly influenced by the coexistence of organic hydroperoxides, organic acids and aldehydes. However, the Fe2+ concentration of more than 1000 ng/ml showed negative interference for this fluorometric method. Recoveries of H2O2 added to rain waters are satisfactory, ranging from 92 to 94%. Therefore, it is considered that this method is applicable to the determination of H2O2 in the rain water. |
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| AbstractList | The POPHA (p-hydroxyphenylacetic acid) fluorometric method for the determination of hydrogen peroxide (H sub(2)O sub(2)) in rain water was investigated. The optimum conditions for peroxidase on the formation of fluorescent POPHA dimer from H sub(2)O sub(2) and POPHA are over 2 units/ml of peroxidase concentration and above pH 5.0. The best conditions for catalase on the decomposition of H sub(2)O sub(2) in the testing solutions as analytical blank are over 500 units/ml, over 2 min of reaction time and above pH 5.5. By this analytical method, the detectable range of H sub(2)O sub(2) concentration is from 1 to 150 ng/ml and the coefficients of variation are below 5%. This method is hardly influenced by the coexistence of organic hydroperoxides organic acids and aldehydes. However, the Fe super(2+) concentration of more than 1000 ng/ml showed negative interference for this fluorometric method. Recoveries of H sub(2)O sub(2) added to rain waters are satisfactory, ranging from 92 to 94%. Therefore, it is considered that this method is applicable to the determination of H sub(2)O sub(2) in the rain water. The POPHA (p-hydroxyphenylacetic acid) fluorometric method for the determination of hydrogen peroxide (H2O2) in rain water was investigated. The optimum conditions for peroxidase on the formation of fluorescent POPHA dimer from H2O2 and POPHA are over 2 units/ml of peroxidase concentration and above pH 5.0. The best conditions for catalase on the decomposition of H2O2 in the testing solutions as analytical blank are over 500 units/ml, over 2 min of reaction time and above pH 5.5. By this analytical method, the detectable range of H2O2 concentration is from 1 to 150 ng/ml and the coefficients of variation are below 5%. This method is hardly influenced by the coexistence of organic hydroperoxides, organic acids and aldehydes. However, the Fe2+ concentration of more than 1000 ng/ml showed negative interference for this fluorometric method. Recoveries of H2O2 added to rain waters are satisfactory, ranging from 92 to 94%. Therefore, it is considered that this method is applicable to the determination of H2O2 in the rain water. |
| Author | NAKAMURO, KATSUHIKO GOTO, RIKA SAYATO, YASUYOSHI |
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| References | 19) T. Ibusuki, Atmos. Environ., 17, 393(1983). 3) 平石尹彦, 公害と対策, 224, 47(1984). 10) 鶴田治雄, 環境研究, 61, 70(1986). 16) G.L. Kok, T.P. Holler, M.B. Lopez, H.A. Nachtrieb, M. Yuan, Environ. Sci. Technol., 12, 1072(1978). 8) 溝口次夫, 用水と廃水, 33, 13(1991). 20) A.L. Lazrus, G.L. KOk, S.N. Gitlin, J.A. Lind, Anal. Chem., 57, 917(1985). 21) 佐谷戸安好, 中室克彦, 森田広美, 後藤里花, 衛生化学, 36, 234(1990). 18) G.P. Brotea, R.J. Thibert, Microchem. J., 37, 368(1988). 4) 杉戸大作, 水道協会雑誌, 620, 2(1986). 12) K. Yoshizumi, K. Aoki, I. Nouchi, T. Ohkita, T. Kobayashi, S. Kamakura, M. Talima, Atmos. Environ., 18, 395(1984). 22) 松本光弘, 西川喜考, 村野健太郎, 福山力, 分析化学, 36, 179(1987). 6) 指宿発嗣, ぶんせき, 133, 16(1986). 5) 玉置元則, 労働の科学, 44, 4(1989). 24) 松本光弘, 大気汚染学会誌, 23, 64(1988). 13) G.L. Kok, Atmos. Environ., 14, 653(1980). 1) 木下正明, 公害と対策, 329, 106(1991). 23) 田中茂, 安江慶介, 桂央也, 丹野善将, 橋本芳一, 分析化学, 37, 665(1988). 25) T. Staehelin, J. Hoigné, Enuiron. Sci. Technol., 19, 1206(1985). 11) S.A. Penkett, B.M. Jones, K.A. Brice, A.E.J. Eggleton, Atmos. Enviyon., 13, 123(1978). 9) 村野健太郎, 公害と対策, 306, 34(1989). 17) H. Bader, V. Sturzenegger, J. Hoigné, Water Res., 22, 1109(1988). 7) 大喜多敏一, 公害と対策, 334, 21(1991). 14) K.J. Olszyna, J.F. Meagher, E.M. Bailey, Atmos. Environ., 22, 1699(1988). 2) 玉置元則, 公害と対策, 329, 118(1891). 15) R. Zika, E. Saltzman, W.L. Chameides, D.D. Davis, J. Geophys. Res., 87, 5015(1982). |
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| Snippet | The POPHA (p-hydroxyphenylacetic acid) fluorometric method for the determination of hydrogen peroxide (H2O2) in rain water was investigated. The optimum... The POPHA (p-hydroxyphenylacetic acid) fluorometric method for the determination of hydrogen peroxide (H sub(2)O sub(2)) in rain water was investigated. The... |
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| Title | Studies on Determination Method of Hydrogen Peroxide in Rain Water : Fluorometric Method Using p-Hydroxyphenylacetic Acid |
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