Диссертация (1150294), страница 20
Текст из файла (страница 20)
– V. 45. –I. 6. – P. 1123 – 1129.26. Kaneko, M. Flow-injection determination of chromium(III) by its catalysis onthe oxidative coupling of 3-methyl-2-benzothiazolinone hydrazone with Nethyl-N-(2-hydroxy-3-sulfopropyl)-3-methoxyaniline/M.Kaneko,M.Kurihara, S. Nakano, T. Kawashima // Anal. Chim. Acta. – 2002. – V. 474. – P.167 – 176.16027. Tang, B. Flow injection kinetic spectrofluorimetric determination of traceamounts of palladium / B. Tang, H.
Zhang, Y. Wang // Anal. Chim. Acta. –2004. – V. 511. – P. 17 – 23.28. Perez, J.A.P. Chemiluminescent determination of vanadium(IV) using acinchomeronic hydrazid-H2O2 system and flow injection analysis / J.A.P. Perez,J.S.D. Alegria, P.F. Hernando, A.N. Sierra // Anal. Chim. Acta. – 2005. – V.536. – P. 115 – 119.29. Tang, B. Flow injection kinetic spectrofluorimetric determination of traceamounts of osmium / B. Tang, H. Zhang, Y. Wang // Spectrochim.
Acta Part A.– 2005. – V. 61. P. 2239 – 2244.30. Zhengjun, G. Flow injection kinetic spectrophotometric determination of traceamounts of Se(IV) in seawater / G. Zhengjun, Z. Xinshen, C. Guohe, X.Xinfeng // Talanta. – 2005. – V. 66. – P. 1012 – 1017.31.
Rezaei, B. A simple and selective spectrophotometric flow injectiondetermination of trace amounts of ruthenium by catalytic oxidation of safraninO / B. Rezaei, M. Keyvanfard // J. Hazard. Mater. – 2008. – V. 151. – P. 456 –460.32. Nakano, S. Flow-injection catalytic spectrophotometric determination ofmolybdenum(VI) in plants using bromate oxidative coupling of phydrazinobensenesulfonic acid with N-(1-naphthyl)ethylenediamine / S.Nakano, C.
Kamaguchi, N. Hirakawa // Talanta. – 2010. – V. 81. – P. 786 –791.33.Huang,Y.Reverseflowinjectionanalysismethodforcatalyticspectrophotometric determination of iron in estuarine and coastal waters: Acomparison with normal flow injection analysis / Y. Huang, D. Yuan, M. Dai,Y. Liu // Talanta.
– 2012. – V. 93. – P. 86 – 93.34. Мозжухин, А.В. Проточно-инжекционное фотометрическое определениемикроколичеств меди II в природных водах / А.В. Мозжухин, А.Л.161Москвин, Ю.С. Худяков // Журн. Аналит. Химии. – 2013. – Т. 68. – №. 3. –С. 211 – 311.35. Шпигун, Л.К. Проточно–инжекционное определение золота(III) на основекаталитическойреакциипероксодисульфатногоокислениябромпирогаллолового красного / Л.К. Шпигун, П.М. Камилова, А. В.Шушеначев // Журн. Аналит. Химии. – 2002. – Т.
57. – №. 11. – С. 1231 –1236.36. Kolotyrkina, I.Ya. Application of flow injection spectrophotometry to thedetermination of dissolved iron in sea-water / I.Ya. Kolotyrkina, L.K. Shpigun,Ya.A. Zolotov // Analyst. – 1995. – V. 120. – P. 201 – 206.37. Ensafi, A.A. Simultaneous spectrophotometric determination of nitrite andnitrate by flow injection analysis / A.A.
Ensafi, B. Rezaei, S. Nouroozi // Anal.Sci. – 2004. – V. 20. – P. 1749 – 1753.38. Rehman A. Determination of nitrite and nitrate in freshwaters using flowinjection luminol chemiluminescence detection / A. Rehman, M. Yaqoob, A.Wassem, A. Nabi // Acta Chim. Slov. – 2001.
– V. 58. – P. 569 – 575.39. Nouroozi, S. Flow injection kinetic spectrophotometric method for thedetermination of trace amounts of nitrite / S. Nouroozi, R. Mirshafian // Talanta.– 2009. – V. 79. – P. 1149 – 1153.40. Кузнецов, В.В. Проточно-инжекционное определение нитритов на основеих реакции с тиоцианатами / В.В. Кузнецов, С.В. Земятова, Ю.В.Ермоленко // Журн. аналит. химии. – 2005. – Т. 60. – № 3. – С.
323 – 330.41. Кузнецов, В.В. Проточно-инжекционная спектрофотометрия нитритов наоснове реакций диазотирования азиновых красителей / В.В. Кузнецов, С.В.Земятова // Журн. аналит. химии. – 2007. – Т. 62. – № 7. С. 710 – 718.42. Москвин. А.Л. Сравнительная оценка методик проточно-инжекционногоопределения сульфат-ионов в слабоминерализованных природных водах /А.Л. Москвин, А.В. Мозжухин, В.М. Захаренко // Заводская лаборатория.Диагностика материалов. – 2003. – Т. 69. – № 9. – С. 3 – 5.16243. Liu, J. Kinetic method for determination of ascorbic acid on flow injectionsystem by using its catalytic effect on the complexation reaction of an ultrasensitive colorimetric reagent of porphyrin with Cu(II) / J. Liu, J-I.
Itoh //Spectrochim. Acta Part A. – 2007. – V. 67. P. 455 – 459.44. Liu, W. Determination of phenol by flow-injection with chemiluminescencedetection based on the hemin-catalysed luminol-hydrogen peroxide reaction /W. Liu, W. Cao, W. Liu, K. Du, P. Gong // Spectrochim. Acta Part A. – 2012. –V. 85. – P. 283 – 287.45. Wang, Z. Chemiluminescence detection of hydroquinone with flow-injectionanalysis of luminol-hydrogen peroxide system catalyzed by Jacobsen’s catalyst/ Z. Wang, Y.
Tang, H. Hu, L. Xing, G. Zhang, R. Gao // J. Lumin. – 2014. –V. 145. – P. 818 – 823.46. Price, D. Determination of hydrogen peroxide in sea water by flow-injectionanalysis with hemiluminescence detection / D. Price, P.J. Worfold, R.F.C.Mantoura // Anal. Chim. Acta. – 1994. – V. 298. – P. 121 – 128.47.Greenway, G.M. Ultrasound-enhanced flow injection chemiluminescence fordetermination of hydrogen peroxide / G.M. Greenway, T. Leelasattarathkul, S.Liawruangrath, R.A. Wheatley, N. Youngvises // Analyst. – 2006. – V. 131.P.
501 – 508.48. Kurihara, M. Flow injection determination of hydrogen peroxide using catalyticeffect of cobalt(II) ion on a dye formation reaction / M. Kurihara, M.Muramatsu, M. Yamada, N. Kitamura // Talanta. – 2012. – V. 96. – P. 180 –184.49. Yue, X-F. Flow injection catalytic spectrophotometric simultaneousdetermination of nitrite and nitrate / X-F. Yue, Z-Q.
Zhang, H-T. Yan //Talanta. – 2004. – V. 62. – P. 97 – 101.50. Price, D. Shipboard determination of hydrogen peroxide in the westernMediterranean sea using flow injection with chemiluminescence detection / D.163Price, R.F.C. Mantoura, P.J. Worsfold // Anal. Chim.
Acta. – 1998. – V. 371. –P. 205 – 215.51. Zhou, Y. Evaluation of luminol-H2O2-KIO4 chemiluminescence system and itsapplication to hydrogen peroxide, glucose and ascorbic acid assays /Y. Zhou, T.Nagaoka, F. Li, G. Zhu // Talanta. – 1999. – V. 48. – P. 461 – 467.52. Zhang, L. Highly selective sensing of hydrogen peroxide based on cobaltethylenediaminetetraacetate complex intercalated layered double hydroxideenhanced luminol chemiluminescence / L. Zhang, Y. Chen, Z.
Zhang, C. Lu. //Sens. Actuators, B. – 2014. – V. 193. – P. 752 – 758.53. Fortes, P.R. Sequential injections as an alternative to gradient exploitation forimplementing differential kinetic analysis in a flow injection system / P.R.Fortes, M.A. Feres, E.A.G. Zagatto, J.L.F.C. Lima // Talanta. – 2010. – V. 81. –P. 1409 – 1412.54. Ensafi, A.A. Determination of vanadium by its catalytic effect on the oxidationof gallocianin with spectrophotometric flow injection analysis / A.A. Ensafi, A.Kazemzadeh // Microchem. J. – 1996. – V. 53. – P.
139 – 146.55. Lunvongsa, S. Novel catalytic oxidative coupling reaction of N,N-dimethyl-pphenylenediamine with 1,3-phenylendiamine and its applications to thedetermination of copper and iron at trace levels by flow injection technique / S.Lunvongsa, T. Takayanagi, M. Oshima, S. Motomizu // Anal.
Chim. Acta. –2006. – V. 576. – P. 261 – 269.56. Sekine, Y. Flow injection determination of trace amounts of copper based on itscatalytic effect on the oxidation of 3,3’,5,5’-tetramethylbenzidine by cumenehydroperoxide / Y. Sekine, I. Shitanda, M. Itagaki, K. Watanabe, S. Nakano, T.Kawashima // Microchim.
Acta. – 2010. – V. 170. – P. 113 – 119.57. Khaled, E. Flow injection spectrophotometric determination of iron based on itscatalytic effect on the oxidation of variamine blue by hydrogen peroxide / E.Khaled, H.N.A. Hassan, A.M.H. Moghied // J. Flow Injection Anal. – 2007. –V. 24. – №. 2. – P. 109 – 113.16458. Yuan, D. Flow-injection determination of iron based on its catalysis on theoxidation reaction of xylenol orange by potassium bromate / Y. Dong, D. Fu //Anal.
Lett. – 2011. – V. 44. – P. 271 – 283.59. Kolotyrkina, I.Ya. Shipboard flow injection method for the determination ofmanganese in sea-water using in-valve preconcentration and catalyticspectrophotometric detection / I.Ya. Kolotyrkina, L.K. Shpigun, Y.A. Zolotov,G.I. Tsysin // Analyst. – 1991. – V. 116. – P. 707 – 710.60. He, S. β-Cyclodextrins-based inclusion complexes of CoFe2O4 magneticnanoparticles as catalyst for the luminol chemiluminescence system and theirapplications in hydrogen peroxide detection / S. He, W. Shi, X. Zhang, J. Li, Y.Huang // Talanta.
– 2010. – V. 82. – P. 377 – 383.61. Chen, H. Flowinjection analysis of hydrogen peroxide based on carbonnanospherescatalyzedhydrogencarbonate-hydrogenperoxidechemiluminescent reaction / H. Chen, L. Lin, Z. Lin, C. Lu, G. Guo, J-M. Lin //Analyst.
– 2011. – V. 136. – P. 1957 – 1964.62. Su, L. Determination of trace amounts of manganese in natural waters by flowinjection stopped-flow catalytic kinetic spectrophotometry / L. Su, J. Li, H. Ma,G. Tao // Anal. Chim. Acta. – 2004. – V. 522. – P. 281 – 288.63. Okutani, T. Spectrophotometric determination of nitrite based on its catalyticeffect on the oxidation of 2,2’-azinobis(3-ethylbenzothiazoline-6-sulfonic acid)/ T. Okutani, A. Sakuragawa, S.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
