Автоматизация и миниатюризация химического анализа на принципах проточных методов (обзор)

Автор: Булатов Андрей Васильевич, Москвин А.Л., Москвин Л.Н., Вах К.С., Фалькова М.Т., Шишов А.Ю.

Журнал: Научное приборостроение @nauchnoe-priborostroenie

Рубрика: Системный анализ приборов и измерительных методик

Статья в выпуске: 2 т.25, 2015 года.

Бесплатный доступ

Рассмотрены основные тенденции развития проточных методов анализа как в плане общих схемных решений, так и круга решаемых аналитических задач. Обсуждаются принципы, возможности и ограничения известных методов проточного анализа, их роль в реализации концепции зеленой аналитической химии. Наряду с новыми общими схемами проточного анализа рассматриваются вариации его гибридизации со сложными методами многокомпонентного анализа - спектральными и хроматографическими. Особое внимание уделяется стадии пробоподготовки, включающей методы разделения и концентрирования. Приведены примеры применения проточных методов для автоматизации методик анализа off-line и создания автоматизированных систем аналитического контроля on-line. Среди областей практического применения проточных методов основное внимание уделено анализу объектов окружающей среды, фармацевтике и радиохимическому анализу.

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Методы, автоматизация, миниатюризация, проточный анализ, радиохимический анализ, объекты окружающей среды, фармацевтическое сырье и препараты

Короткий адрес: https://sciup.org/14264973

IDR: 14264973

Список литературы Автоматизация и миниатюризация химического анализа на принципах проточных методов (обзор)

Шпигун Л.К. Проточно-инжекционный анализ//Журн. аналит. химии. 1990. Т. 45, № 6. С. 1045-1091.
Проточный химический анализ/Ред. Ю.А. Золотов. М.: Наука, 2014. 428 с.
Золотов Ю.А. Лаборатории на микрочипе, на кране, в капилляре. Где еще?//Журн. аналит. химии. 2012. Т. 67, № 9. С. 827-827.
Melchert W.R., Reis B.F., Rocha F.R.P. Green chemistry and the evolution of flow analysis. A review//Anal. Chim. Acta. 2012. Vol. 714. P. 8-19.
Kolev S.D., Mckelvie I.D. Advances in flow injection analysis and related techniques. Hungary: Elsevier, 2008. 808 р.
Trojanowicz M. Advances in flow analysis. Weinheim: Wiley-VCH, 2008. 672 р.
Кузнецов В.В. Проточно-инжекционный анализ//Соросов. образоват. журн. 1999. № 11. С. 56-60.
Trojanowicz M. Flow analysis as advanced branch of flow chemistry//Mod. Chem. Appl. 2013. Vol. 1. P. 2-9.
Hansen E.H., Miro M. How flow-injection analysis (FIA) over the past 25 years has changed our way of performing chemical analysis//Trends Anal. Chem. 2007. Vol. 26. P. 18-26.
Idris A.M. Overview of generations and recent versions of flow injection techniques//Crit. Rev. Anal. Chem. 2010. Vol. 40, no. 3. P. 150-158.
Segundo M.A., Rangel A.O.S.S. A critical view of its evolution and perspectives//J. Flow Injection Anal. 2002. Vol. 19. P. 3-8.
Martelli P.B., Rocha F.R.P., Gorga R.C.P., Reis B.F. A flow system for spectrophotometric multidetermination in water exploiting reagent injection//J. Braz. Chem. Soc. 2002. Vol. 13, no. 5. P. 642-646.
Zenki M., Minamisawa K., Yokoyama T. Clean analytical methodology for the determination of lead with Arsenazo III by cyclic flow-injection analysis//Talanta. 2005. Vol. 68. P. 281-286.
Ruzicka J., Marshall G.D. Sequential injection: A new concept for chemical sensors, process analysis and laboratory assays//Anal. Chim. Acta. 1990. Vol. 237. P. 329-343.
Gubeli T., Christian G., Ruzicka J. Fundamentals of sinusoidal flow sequential injection spectrophotometry//Anal. Chem. 1991. Vol. 63. P. 2 407-2 413.
Christian G.D. Sequential injection analysis for electrochemical measurements and process analysis//Analyst. 1994. Vol. 119. P. 2 309-2 314.
Ruzicka J. Lab on-valve: Microflow analyzer based on sequential and bead injection//Analyst. 2000. Vol. 125. P. 1053-1060.
Scampavia L.D., Ruzicka J. Micro-sequential injection: a multipurpose lab-on-valve for anvancement of bioanalytical assays//Anal. Sciences. 2001. Vol. 17. P. 429-430.
Decuir M.S., Boden H.M., Caroll A.D., Ruzicka J. Principles of micro sequential injection analysis in the lab-on-valve format and its introduction into a teaching laboratory//J. of Flow Injection Anal. 2007. Vol. 24. P. 103-108.
Vidigal S., Range A. Sequential injection lab-on-valve system for the determination of the activity of peroxidase in vegetables//J. Agric. Food Chem. 2010. Vol. 58. P. 2 071-2 075.
Amorim C.G., Araújo A.N., Montenegro M., Silva V.L. Sequential injection lab-on-valve procedure for the determination of amantadine using potentiometric methods//Electroanalysis. 2007. Vol. 19. P. 2 227-2 233.
Chen X., Jiao J., Wang J. Determination of proteins in a mesofluidic lab-on-valve system//J. of Anal. Chem. 2008. Vol. 36. P. 1 601-1 605.
Erxleben H., Ruzicka J. Atomic absorption spectroscopy for mercury, automated by sequential injection and miniaturized in lab-on-valve system//Anal. Chem. 2005. Vol. 77. P. 5 124-5 128.
Marshall G., Wolcott D., Olson D. Zone fluidics in flow analysis: potentialities and applications//Anal. Chim. Acta. 2003. Vol. 499. P. 29-40.
Diniz P.D., Almeida L.F., Harding D.P., Araujo M.C.U. Flow-batch analysis//Trends Anal. Chem. 2012. Vol. 35. P. 39-49.
Мозжухин A.B., Москвин A.Л., Москвин Л.H. Циклический инжекционный анализ -новый метод проточного анализа//Журн. аналит. химии. 2007. Т. 62, № 5. С. 527-531.
Falkova M.T., Pushina M.O., Bulatov A.V. et al. Stepwise injection spectrophotometric determination of flavonoids in medicinal plants//Anal. Lett. 2014. Vol. 47. P. 970-982.
Москвин Л.Н., Булатов А.В., Леонова С.А. и др. Циклическое инжекционное фотометрическое определение сероводорода в углеводородных газах//Журн. аналит. химии. 2007. Т. 62, № 7. С. 705-709.
Fonseca A., Raimundo I.M., Rohwedder J.J.R. et al. A microfluidic device with integrated fluorimetric detection for flow injection analysis//Anal. Bioanal. Chem. 2010. Vol. 396. P. 715-723.
Ohnishi N., Satoh W., Morimoto K., Fukuda J., Suzuki H. Automatic electrochemical sequential processing in a microsystem for urea detection//Sensors and Actuators B. 2010. Vol. 144. P. 146-152.
Pons C., Forteza R., Rangel A.O.S.S., Cerda V. The application ofmulticommutated flow techniques to the determination of iron//Trends Anal. Chem. 2006. Vol. 25. P. 583-588.
Trojanowicz M., Benson R., Worsfold P. Recent developments in water quality monitoring by flow injection analysis//Trends in Anal. Chem. 1991. Vol. 10. P. 11-17.
Saurina J., Hernandez-Cassou S. Quantitative determinations in conventional flow injection analysis based on different chemometric calibration statregies: a review//Anal. Chim. Acta. 2001. Vol. 438. P. 335-352.
Huang C., Jiang Z., Hu B. Mesoporous titanium dioxide as a novel solid-phase extraction material for flow injection micro-column preconcentration on-line coupled with ICP-OES determination of trace metals in environmental samples//Talanta. 2007. Vol. 73. P. 274-281.
Yin J., Jiang Z., Chang G., Hu B. Simultaneouson-line preconcentration and determination of trace metals in environmental samples by flow injection combined with inductively coupled plasma massspectrometry using a nanometer-sized alumina packed micro-column//Anal. Chim. Acta. 2005. Vol. 540. P. 333-339.
Can N.O., Altiokka G., Aboul-Enein H.Y. Determination of cefuroxime axetil in tablets and biological fluids using liquid chromatography and flow injection analysis//Anal. Chim. Acta. 2006. Vol. 576. P. 246-252.
Brunetto M.R., Delgado Y., Clavijo S., Contreras Y. et al. Analysis of cocaine and benzoylecgonine in urine by using multisyringe flow injection analysis-gas chromatographymass spectrometry system//J. Sep. Sci. 2010. Vol. 33. P. 1 779-1 786.
Liu X., Zhang J., Chen X. Separation and determination of three water-soluble compounds in Salvia miltiorrhiza Bunge and two related traditional medicinal preparations by flow injection-capillary electrophoresis//J. Chromatogr. B. 2007. Vol. 852. P. 325-332.
Москвин А.Л., Москвин Л.Н. Вода и водные среды: химический анализ "on line", проблемы и решения//Успехи химии. 2005. Т. 74, № 2. С. 155-163.
Mesquita R.B.R., Fernandes S.M.V., Rangel A.O.S.S. A flow system for the spectrophotometric determination of lead indifferent types of waters using ion-exchange for pre-concentration andelimination of interferences//Talanta. 2004. Vol. 62. P. 395-401.
Miro M., Cerda V., Estela J.M. Multisyringe flow injection analysis: characterization and applications//Trends Anal. Chem. 2002. Vol. 21. P. 199-210.
Lapa R.A.S., Lima J.L.F.C., Reis B.F., Santos J.L.M. et al. Multi-pumping in flow analysis: concepts, instrumentation, potentialities//Anal. Chim. Acta. 2002. Vol. 466. P. 125-132.
Fajardo Y., Gómez E., Garcias F., Cerda V., Casas M. Development of an MSFIA-MPFS pre-treatment method for radium determination in water samples//Talanta. 2007. Vol. 71. P. 1 172-1 179.
Truzell R., Karlberg B. Study of efficiency and response of gasdiffusion devices in flow injection systems//Anal. Chem. Acta. 1995. Vol. 308. P. 206-212.
Frenzel W. Membrane based gas sampling and analysis coupled to continuous flow systems//Fresenius' J. Anal. Chem. 1992. Vol. 342. P. 817-821.
Oliveira S., Lopes T., Rangel A. Development of a gas diffusion multicommuted flow injection system for the determination of sulfur dioxide in wines, comparing malachite green and pararosaniline chemistries//J. Agric. Food Chem. 2009. Vol. 57. P. 3 415-3 422.
Junsomboon J., Jakmunee J. Flow injection conductometric systemwith gas diffusion separation for the determination of kjeldahl nitrogen inmilk and chicken meat//Anal. Chim. Acta. 2008. Vol. 627. P. 232-238.
Dhaouadi A., Monser L., Sadok S., Adhoum N. Validation of a flow-injection-gas diffusion "method for total volatile basic nitrogen determination in seafood products//Food Chem. 2007. Vol. 103. P. 1 049-1 053.
Gibb S.W., Wood J.W., Fauzi R., Mantoura C. Automation of flow injection gas diffusion-ion chromatography for the nanomolar determination of methylamines and ammonia in seawater and atmospheric samples//J. Automat. Chem. 1995. Vol. 17. P. 205-212.
Liu R., Sun B., Liu D., Sun A. Flow injection gas-diffusion amperometric determination of trace amounts of ammonium ions with a cupric hexacyanoferrate//Talanta. 1996. Vol. 43. P. 1 049-1 054.
Amini N., Cardwell T.J., Cattrall R.W., Kolev S. Determination of mercury(II) at trace levels by gas-diffusion flow injection analysis with amperometric detection//Anal. Chim. Acta. 2005. Vol. 539. P. 203-207.
Kolev S.D., Fernandes P., Satinsky D., Solich P. Highly sensitive gas-diffusion sequential injection analysis based on flow manipulation//Talanta. 2009. Vol. 79. P. 1 021-1 025.
Oms M.T., Cerda A., Сladera A., Cerda V., Forteza R. Gas diffusion techniques coupled sequential injection analysis for selective determination of ammonia//Anal. Chim. Acta. 1996. Vol. 318. P. 251-260.
Mesquita R.B., Rangel A.O. Gas diffusion sequential injection system for the spectrophotometric determination of free chlorine with o-dianisidine//Talanta. 2005. Vol. 68. P. 268-273.
Oms M.T., Cerdа A., Cerdа V. Preconcentration by flow-reversal in conductometric sequential injection analysis of ammonium//Electroanalysis. 1995. Vol. 8. P. 387-390.
Silva H., Аlvares-Ribeiro L. Optimization of a flow injection analysis system for tartaric acid determination in wines//Talanta. 2002. Vol. 58. P. 1 311-1 318.
Grudpan K., Jakmunee J., Sooksamiti P. Flow injection dialysis for the determination of anions using ion chromatography//Talanta. 1999. Vol. 49. P. 215-223.
Staden J. Tandem on-line dialysis with a double and single dialyser in flow injection dialysis. Simultaneous determination of calcium and high chloride in industrial effluents//Fresenius' J. of Anal. Chem. 1995. Vol. 351. P. 181-185.
Araujo A.N., Lima J., Saraiva M., Zagatto E. A new approach to dialysis in sequential injection systems: Spectrophotometry determination of L(+)-lactate in wines//Am. J. of Enology and Viticulture. 1997. Vol. 48. P. 428-432.
Mataix E., Luque de Castro M.D. Determination of total and free sulfur dioxide in wine by pervaporation-flow injection//Analyst. 1998. Vol. 123. P. 1 547-1 549.
Rupasinghe T., Cardwell T.J., Cattrall R.W. et al. Determination of arsenic by pervaporation-flow injection hydride generation and permanganate spectrophotometric detection//Anal. Chim. Acta. 2004. Vol. 510. P. 225-230.
Siangproh W., Teshima N., Sakai T., Katoh S. et al. Alternative method for measurement of albumin/creatinine ratio using spectrophotometric sequential injection analysis//Talanta. 2009. Vol. 79. P. 1 111-1 117.
Pérez-Olmos R., Soto J.C., Zárate N. et al. Application of sequential injection analysis (SIA) to food analysis//Food Chem. 2005. Vol. 90. P. 471-490.
Mataix E., Luque de Castro M.D. Simultaneous determination of ethanol and glycerol in wines by a flow injection-pervaporation approach with in parallel photometric and fluorimetric detection//Talanta. 2000. Vol. 51. P. 489-496.
González-Rodrı́guez J., Pérez-Juan P., Luque de Castro M.D. Method for monitoring urea and ammonia in wine and must by flow injection-pervaporation//Anal. Chim. Acta. 2002. Vol. 471. P. 105-111.
Mataix E., Luque de Castro M.D. Determination of total and free sulfur dioxide in wine by pervaporation-flow injection//Analyst. 1998. Vol. 123. P. 1 547-1 549.
Moskvin L.N., Moskvin A.L., Moszhuchin A.V. et al. Extraction-chromatographic preconcentration with chromatomem brane separarion of extract from aqueous phase for luminescence determination of oil products and phenols in natural water by flow injection analysis//Talanta. 1999. Vol. 50. P. 113-121.
Hayakawa K., Yoneda Y., Okamoto Y., Kumamaru T. et al. Rapid determination of oil in water using flow injection analysis and IR detection//Anal. Sci. 1999. Vol. 15. P. 803-805.
Burns D.T., Pornsinlapatip P. Flow injection extraction spectrofluorimetric determination of aluminium as the tetraphenylphosphonium aluminium (III) 8-hydroxyquinoline-5-sulphonate//Anal. Lett. 2002. Vol. 35. P. 1 085-1 093.
Chimpalee N., Chimpalee D., Lohwithee S., Nakwatchara L., Burns D.T. Flow injection extraction spectrophotometric determination of copper using bis(acetylacetone)ethylenediimine//Anal. Chim. Acta. 1996. Vol. 331. P. 253-256.
Pеrez-Ruiz T., Martinez-Lozano C., Tomаs V., Sanz A. et al. Flow-injection extraction-spectrophotometric method for the determination of ranitidine in pharmaceutical preparations//J. Pharm. Biomed. Anal. 2001. Vol. 26. P. 609-615.
Peterson K.L., Logan B.K., Christian G.D., Ruzicka J. Sequential-injection extraction for sample preparation//Anal. Chim. Acta. 1997. Vol. 337. P. 99-106.
Москвин А.Л, Мозжухин А.В., Мухина Е.А. и др. Проточно-инжекционное фотометрическое определение "фенольного индекса" в природных водах в присутствии гуминовых кислот//Журн. аналит. химии. 2005. Т. 60. С. 79-84.
Москвин Л.Н., Булатов А.В., Николаева Д.Н. и др. Проточно-инжекционное экстракционно-фотометрическое определение микроконцентраций фосфат-и силикат-ионов//Журн. аналит. химии. 2002. Т. 57. С. 709-714.
Москвин Л.Н., Родинков О.В. Хроматомембранные методы: физико-химические принципы, аналитические и технологические возможности//Известия РАН. Серия химическая. 2012. № 4. C. 719-736.
Andruch V., Acebal C.C., Škrlíková J., Sklenářová H. et al. Automated on-line dispersive liquid-liquid microextraction based on a sequential injection system//Microchem. J. 2012. Vol. 100. P. 77-82.
Большов М.А., Карандашев В.К., Цизин Г.И., Золотов Ю.А. Проточные методы определения элементов в растворах, основанные на сорбционном концентрировании и масс-спектрометрии с индуктивно связанной плазмой//Журн. аналит. химии. 2011. Т. 66. С. 564-581.
Филиппов О.А., Посох В.В., Тихомирова Т.И. и др. Проточное сорбционно-хроматографическое определение фенолов с амперометрическим детектированием//Журн. аналит. химии. 2002. Т. 57. С. 933-939.
Цизин Г.И., Золотов Ю.А. Проточные сорбционно-спектроскопические методы анализа//Журн. аналит. химии. 2002. Т. 57. С. 678-698.
Олиферова Л.А., Статкус М.А., Цизин Г.И., Золотов Ю.А. Новые сорбенты для концентрирования гидрофобных органических веществ в проточных системах анализа//Доклады Росс. акад. наук. 2005. Т. 401. С. 639-642.
Олиферова Л.А., Статкус М.А., Цизин Г.И. и др. Проточные сорбционно-жидкостно-хроматографи-ческие методы анализа//Журн. аналит. химии. 2006. Т. 61. С. 454-480.
Борисова Д.Р., Статкус М.А., Цизин Г.И., Золотов Ю.А. Проточное сорбционно-жидкостно-хроматографическое определение фенолов, включающее концентрирование на углеродном сорбенте и десорбцию субкритической водой//Аналитика и контроль. 2012. Т. 16. С. 224-231.
Золотов Ю.А., Цизин Г.И., Дмитренко С.Г., Моросанова Е.И. Сорбционное концентрирование микрокомпонентов из растворов. М.: Наука, 2007. 320 с.
Москвин Л.Н., Дрогобужская С.В., Москвин А.Л. Проточное фотометрическое определение бериллия с сорбционным концентрированием на волокнистом сорбенте//Журн. аналит. химии. 1999. Т. 54. С. 272-277.
Булатов А.В., Москвин А.Л., Москвин Л.Н., Тимофеева И.И. Циклический инжекционный анализ -новые возможности автоматизации химического анализа твердофазных образцов//Заводская лабор. 2010. Т. 76. С. 25-27.
Makahleh A., Saad B. Flow injection determination of free fatty acids in vegetable oils using capacitively coupled contactless conductivity detection//Anal. Chim. Acta. 2011. Vol. 694. P. 90-94.
Ruiz-Medina A., Llorent-Martínez E.J., Fernández-de Córdova M.L. et al. Automated optosensor for the determination of carbaryl residues in vegetable edible oils and table olive extracts//J. of Food Composition and Anal. 2012. Vol. 26. P. 66-71.
Булатов А.В., Головкина А.Б., Балова И.А. и др. Циклическое инжекционное фотометрическое определение фосфора в светлых нефтепродуктах//Журн. аналит. химии. 2011. Т. 66. С. 1 064-1 068.
Булатов А.В., Гончарова Д.В., Леонова С.А., Москвин Л.Н. Проточно-инжекционное ионометрическое определение сероводорода в светлых нефтепродуктах//Завадская лабор. 2006. Т. 72. С. 21-23.
Булатов А.В., Гончарова Д.В., Москвин Л.Н. Проточно-инжекционное фотометрическое определение меркаптанов в светлых нефтепродуктах с хроматомембранным выделением//Журнал аналит. химии. 2006. Т. 61. С. 868-870.
Silva S.G., Rocha F.R.P. A flow injection procedure based on solenoid micro-pumps for spectrophotometric determination of free glycerol in biodiesel//Talanta. 2010. Vol. 83. P. 559-564.
Maruta A.H., Paixao T.R.L.C. Flow injection analysis of free glycerol in biodiesel using a copper electrode as an amperometric detector//Fuel. 2012. Vol. 91. P. 187-191. DOI: DOI: 10.1016/j.fuel.2011.06.071
Del Rio V., Larrechi M.S., Callao M.P. Sequential injection titration method using second-order signals: determination of acidity in plant oils and biodiesel samples//Talanta. 2010. Vol. 81. P. 1 572-1 577.
Araujo A.R.T.S., Saraiva M.L.M.F.S., Lima J.L.F.C., Korn M.G.A. Flow methodology for methanol determination in biodiesel exploiting membrane-based extraction//Anal. Chim. Acta. 2008. Vol. 613. P. 177-183.
Chena G., Yuana D., Huang Y., Zhang M., Bergman M. In-field determination of nanomolar nitrite in seawater using a sequential injection technique combined with solid phase enrichment and colorimetric detection//Anal. Chim. Acta. 2008. Vol. 620. P. 82-88.
Mesquita R.B.R., Rangel A.O.S.S. Development of sequential injection methodologies for the spectrophotometric direct and kinetic determination of aluminium in natural and waste waters//J. Braz. Chem. Soc. 2008. Vol. 19. P. 1 171-1 179.
Fletcher P., Andrew K.N., Calokerinos A.C., Forbes S. et al. Analytical applications of flow injection chemiLuminescence detection -A review//Luminescence. 2001. Vol. 16. P. 1-23.
Christodouleas D., Fotakis C., Economou A. et al. Flow-based methods with chemiluminescence detection for food and environmental analysis: A Review//Anal. Lett. 2011. Vol. 44. P. 176-215.
Conceição A.C.L., Santos M.M.C., Gonçalves M.L.S.S. Adaptation of a commercial ion selective fluoride electrode to a tubular configuration for analysis by flow methodologies//Talanta. 2008. Vol. 76. P. 107-110.
Ipatov A., Abramova N., Bratov A., Domınguez C. Integrated multi-sensor chip with sequential injection technique as a base for electronic tongue devices//Sens. Actuators, B. 2008. Vol. 131. P. 48-52.
Ninwong B., Chuanuwatanakul S., Chailapakul O. et al. On-line preconcentration and determination of lead and cadmium by sequential injection/anodic stripping voltammetry//Talanta. 2012. Vol. 96. P. 75-81.
Ali A., Ye Y., Xu G., Yin X. Copper determination after FI on-line sorbent preconcentration using 1-nitroso-2-naphthol as a complexing reagent//Fresenius’J. Anal. Chem. 1999. Vol. 365. P. 642-646.
Sabarudin A., Lenghor N., Oshima M., Hakim L. et al. Sequential-injection on-line preconcentration using chitosan resin functionalized with 2-amino-5-hydroxy benzoic acid for the determination of trace elements in environmental water samples by inductively coupled plasma-atomic emission spectrometry//Talanta. 2007. Vol. 72. P. 1 609-1 627.
Beck N., Franks R., Bruland K. Analysis for Cd, Cu, Ni, Zn, and Mn in estuarine water by inductively coupled plasma mass spectrometry coupled with an automated flow injection system//Anal. Chim. Acta. 2002. Vol. 455. P. 11-22.
Kuban P., Reinhardt M., Muller B., Hauser P.C. On-site simultaneous determination of anions and cations in drainage water using a flow injection-capillary electrophoresis system with contactless conductivity detection//J. Environ. Monit. 2004. Vol. 6. P. 169-174.
Pinyou P., Hartwell S.K., Jakmunee J., Lapanantnoppakhun S. et al. Flow injection determination of iron ions with green tea extracts as a natural chromogenic reagent//Anal. Sci. 2010. Vol. 26. P. 619-623.
Tarley C.R.T., Ferreira S.L.C., Arruda M.A.Z. Use of modified rice husks as a natural solid adsorbent of trace metals: characterisation and development of an online preconcentration system for cadmium and lead determination by FAAS//Microchem. J. 2004. Vol. 77. P. 163-175.
Gonzáles A.P.S., Firmino M.A., Nomura C.S. et al. Peat as a natural solid-phase for copper preconcentration and determination in a multicommuted flow sytems coupled to flame atomic absorption spectrometry//Anal. Chim. Acta. 2009. Vol. 636. P. 198-204.
Bianchin J.N., Martendal E., Mior R., Alves V.N. et al. Development of a flow system for the determination of cadmium in fuel alcohol using vermicompost as biosorbent and flame atomic absorption spectrometry//Talanta. 2009. Vol. 78. P. 333-336.
Rodinkov O.V., Moskvin L.N., Vaskova E.A. Photometric flow injection determination of formaldehyde in atmospheric air using chromatomembrane absorption//J. Flow Injection Anal. 2005. Vol. 22. P. 11-13.
Wiryawan A. Use of flow injection analysis for continuous monitoring of river water quality//Lab. robotics and Automation. 2000. Vol. 12. P. 142-148.
Janson K.S., Beehler C.L., Sakamoto-Arnold C.M. A submersible flow analysis system//Anal. Chim. Acta. 1986. Vol. 179. P. 245-257.
Gardolinsky P.C.E.C., Worsfold P.J., David A.R.J. Miniature flow injection analyser for laboratory, shipboard and in situ monitoring of nitrate in estuarine and coastal waters//Talanta. 2002. Vol. 58. P. 1015-1027.
Solich P., Polydorou Ch.K., Koupparis M.A., Efstathiou C.E. Automated flow-injection spectrophotometric determination of catecholamines (epinephrine and isoproterenol) in pharmaceutical formulations based on ferrous complex formation//J. of Pharm. and Biomed. Anal. 2000. Vol. 22. P. 781-789.
Legnerová Z., Huclova J., Thun R., Solich P. Using on-line solid phase extraction for simultaneous determination of ascorbic acid and rutin trihydrate by sequential injection analysis//Anal. Chim. Acta. 2003. Vol. 497. P. 165-174.
Моросанова Е.И., Матюшина Т.А., Золотов Ю.А. Последовательный инжекционный анализ в микроварианте: определение рутина и кверцетина в пищевых добавках и лекарственных средствах//Журн. аналит. химии. 2010. Т. 65. С. 313-320.
Евгеньев М.И., Гармонов С.Ю., Шакирова Л.Ш. и др. Проточно-инжекционные определения токсичных ароматических аминов в лекарственных препаратах//Журн. аналит. химии. 2002. Т. 58. С. 1 290-1 295.
Евгеньев М.И., Гармонов С.Ю., Шакирова Л.Ш. Проточно-инжекционный анализ лекарственных веществ (обзор)//Журн. аналит. химии. 2001. Т. 56. С. 355-366.
El-Gendy A.E., El-Bardicy M.G., Loutfy H.M. et al. Flow injection analysis of pharmaceutical compounds. VI. Determination of some central nervous system acting drugs by UV-spectrophotometric detection//Spectrosc. Lett. 1993. Vol. 26. P. 1 649-1 660.
Molina-Díaz A., Ruiz-Medina A., Fernández de Córdova M.L. The potential of flow-through optosensors in pharmaceutical analysis//J. Pharm. Biomed. Anal. 2002. Vol. 28. P. 399-419.
Ruiz-Medina A., Llorent-Martnez E.J. Recent progress of flow-through optosensing in clinical and pharmaceutical analysis//J. Pharm. Biomed. Anal. 2010. Vol. 53. P. 250-261.
Chailapakul O., Ngamukot P., Yoosamran A. et al. Recent electrochemical and optical Sensors in flow-based analysis//Sensors. 2006. Vol. 6. P. 1 383-1 410.
Ciosek P., Wesoly M.‚ Zabadaj M., Lisiecka J. et al. Towards flow-through/flow injection electronic tongue for the analysis of pharmaceuticals//Sensors and Actuators B: Chemical. 2015. Vol. 207. P. 1 087-1 094.
Saurina J. Flow-injection analysis for multi-component determinations of drugs based on chemometric approaches//Trends Anal. Chem. 2010. Vol. 29. P. 1 027-1 037.
Kumar M.A., Alimazlomi M., Hedstrym M., Mattiasson B. Versatile automated continuous flow system (VersAFlo) for bioanalysis and bioprocess control//Sensors and Actuators B. 2012. Vol. 161. P. 855-860.
Staden J., Staden R.S. Flow-injection analysis systems with different detection devices and other related techniques for the in vitro and in vivo determination of dopamine as neurotransmitter. A review//Talanta. 2012. Vol. 102. P. 34-43.
Lopez-Paz J.L., Catala-Icardo M. Analysis of pesticides by flow injection coupled with chemiluminescent detection: a review//Anal. Lett. 2011. Vol. 44. P. 146-175.
Chong K., Loughlin T., Moeder C., Perpall H. et al. Drug substance manufacture process control: application of flow injection analysis and HPLC for monitoring an enantiospecific synthesis//J. Pharm. Biomed. Anal. 1996. Vol. 15. P. 111-121.
Wittrig R.E., Dorman F.L., English C.M., Sacks R.D. High-speed analysis of residual solvents by flow-modulation gas chromatography//J. Chromatogr. A. 2004. Vol. 1 027. P. 75-82.
Falkova M.T., Bulatov A.V., Pushina M.O. et al. Multicommutated stepwise injection determination of ascorbic acid in medicinal plants and food samples by capillary zone electrophoresis ultraviolet detection//Talanta. 2015. Vol. 133. P. 82-87.
Ruzicka J. Lab-on-valve: universal microflow analyzer based on sequential and bead injection//Analyst. 2000. Vol. 125. P. 1 053-1 060.
Huang Y.L., Foellmer T.J., Ang K.C., Khao S.B. et al. Characterization and application of an on-line flow-injection analysis/wall-jet electrode system for glucose monitoring during fermentation//Anal. Chim. Acta. 1995. Vol. 317. P. 223-232.
Nalbach U., Schiemenz H., Stamm W.W., Hummel W., Kula M.-R. On-line flow-injection monitoring of the enzyme inductor L-phenylalanine in the continuous cultivation of rhodococcus sp. M4//Anal. Chim. Acta. 1988. Vol. 213. P. 55-59.
Nienhoff J., Moller J., Hiddessen R., Schuderl K. The use of an automatic on-line system for monitoring penicillin cultivation in a bubble-colum loop reactor//Anal. Chim. Acta. 1986. Vol. 190. P. 205-212.
Мирошниченко И.В., Москвин Л.Н. Совершенствование химико-аналитического контроля жидких радиоактивных сред на принципах проточно-инжекционного анализа//Научное приборостроение. 2011. Т. 21, № 2. С. 20-27.
Мирошниченко И.В., Москвин Л.Н., Пыхтеев О.Ю. и др. Методика проточного определения урана в технологических водных средах ЯЭУ//Вестн. СПбГУ. Сер. 4. 2012. Т. 2. С. 96-101.
Grate J.W., Strebin R., Janata J., Egorov O. et al. Automated analysis of radionuclides in nuclear waste: rapid determination of Sr by sequential injection analysis//Anal. Chem. 1996. Vol. 68. P. 333-340.
Egorov O., O'Hara M.J., Ruzicka J., Grate J.W. Sequential injection system with stopped flow radiometric detection for automated analysis of 99Tc//Nuclear Waste Anal. Chem. 1998. Vol. 70. P. 977-984.
Grate J.W., Egorov O., Fiskum S.K. Automated extraction chromatographic separations of actinides using separation-optimized sequential injection techniques//Analyst. 1999. Vol. 124. P. 1 143-1 150.
Mateos J.J., Gómez E., Garcias F., Casas M., Cerda V. Rapid 90Sr/90Y determination in water samples using a sequential injection method//Applied Radiation and Isotopes. 2000. Vol. 53. P. 139-144.
Hollenbach M., Grohs J., Mamich S., Kroft M. Determination of technetium-99, thorium-230 and uranium-234 in soils by inductively coupled plasma mass spectrometry using flow injection preconcentration//J. Anal. At. Spectrom. 1994. Vol. 9. P. 927-933.
Fajardo Y., Avivar J., Ferrer L., Gomez E., Casas M. et al. Automation of radiochemical analysis by applying flow techniques to environmental samples//Trends Anal. Chem. 2010. Vol. 29. P. 1 399-1 408.
Silva C.R., Vieira H.J., Canaes L.S., Nobrega J.A. et al. Flow injection spectrophotometric method for chloride determination in natural waters using Hg(SCN)2 immobilized in epoxy resin//Talanta. 2005. Vol. 65. P. 965-970.
Caoa W., Mua X., Yang J., Shi W., Zhen Y. Flow injection-chemiluminescence determination of phenol using potassium permanganate and formaldehyde system//Spectrochim. Acta. 2007. Vol. 66. P. 58-62.
Witanabe K., Saoh Y., Shitanda I., Itagaki M. Flow injection analysis of anionic surfactants in river water using teflon filter preconcentration//J. Flow Injection Anal. 2008. Vol. 25. P. 15-19.
Hirata S., Hashimoto Y., Aihara M., Mallika G.V. On-line column preconcentration for the determination of cobalt in sea water by flow-injection chemiluminescence detection//Fresenius’J. Anal. Chem. 1996. Vol. 355. P. 676-679.
Tao G., Fang Z. Electrothermal atomic absorption spectrometric determination of ultra-trace amounts of tin by in situ preconcentration in a graphite tube using flow injection hydride generation with on-line ion-exchange separation//Talanta. 1995. Vol. 42. P. 375-383.
Lapa R., Lima J., Pinto I. Sequential injection analysis determination of sulphate in wastewaters by ultraviolet-spectrophotometry//J. Braz. Chem. Soc. 2000. Vol. 11. P. 170-174.
Erustes J.A., Forteza R., Cerdа V. Sequential-injection procedure for determination of iodide in pharmaceutical and drinking water samples by catalytic reaction with spectrophotometric detection//J. AOAC Intern. 2001. Vol. 84. P. 337-341.
Sartini R.P., Vidotti E.C., Oliveira C.C. Bead-injection determination of total mercury in river water samples//Anal. Sci. 2003. Vol. 19. P. 1 653-1 657.
Oliveira P.C., Masini J.C. Sequential injection determination of chromium (VI) by transient oxidation of brucine with spectrophotometric detection and in-line dilution//Analyst. 1998. Vol. 123. P. 2 085-2 090.
Chuanuwatanakul S., Dungchai W., Chailapakul О. et al. Determination of trace heavy metals by sequential injection-anodic stripping voltammetry using bismuth film creenprinted carbon electrode//Anal. Sci. 2008. Vol. 24. P. 589-594.
Булатов А.В., Цапко А.А., Москвин Л.Н. Циклическое инжекционное раздельное фотометрическое определение фосфат-и силикат-ионов в водных средах//Журн. аналит. химии. 2009. Т. 64, № 6. С. 598-602.
Булатов А.В., Ивасенко П.А., Москвин Л.Н. Циклическое инжекционное фотометрическое определение нитрит-и нитрат-ионов в водных средах при их совместном присутствии//Журн. аналит. химии. 2010. Т. 65. С. 833-837.
Москвин Л.Н., Булатов А.В., Коломиец Н.А. и др. Циклическое инжекционное фотометрическое определение мышьяка в водных средах//Журн. аналит. химии. 2007. Т. 62. С. 1 267-1 270.
Balansay L.S., deLeon L.G., Quirit L.L., Mundo F.R. Pervaporation-flow injection method for the determination of sulfur dioxide in food and air samples//Philippine J. of Sci. 2010. Vol. 139. P. 167-175.
Wang Y., Fan S., Wang S. Chemiluminescence determination of nitrogen oxide in air with a sequential injection method//Anal. Chim. Acta. 2005. Vol. 541. P. 129-134.
Feng S., Fan J., Wang A., Chen X., Hu Z. Kinetic spectrophotometric determination of formaldehyde in fabric and air by sequential injection analysis//Anal. Lett. 2004. Vol. 37. P. 2 545-2 551.
Булатов А.В., Славина Е.А., Москвин Л.Н. Циклическое инжекционное фотометрическое определение меркаптанов в воздухе//Журн. аналит. химии. 2010. T. 65. C. 43-47.
Москвин Л.Н., Булатов, Голдвирт Д.К. Циклическое инжекционное ионометрическое определение сероводорода в атмосферном воздухе//Журн. аналит. химии. 2008. T. 63. C. 91-93.
Булатов А.В., Фульмес К.С., Москвин А.Л., Москвин Л.Н. Циклическое инжекционное фотометрическое определение никеля в аэрозолях воздух//Журн. аналит. химии. 2013. T. 68. C. 71-75.
Pasquali C.E.L., Hernando P.F., Alegrıa J.S.D. Spectrophotometric simultaneous determination of nitrite,nitrate and ammonium in soils by flow injection analysis//Anal. Chim. Acta. 2007. Vol. 600. P. 177-182.
Nogueira A.R.A., Brienza S.M.B., Zagatto E.A.G. et al. Flow injection system with multisite detection forspectrophotometric determination of calcium and magnesium in soil extracts and natural waters//J. Agric. Food Chem. 1996. Vol. 44. P. 165-169.
Ferreira A.M.R., Lima J., Rangel A. Potentiometric determination of total nitrogen in soils by flow injection analysis with a gas-diffusion unit//Aust. J. of Soil Res. 1996. Vol. 34. P. 503-509.
Ferreira A.M.R., Lima J., Rangel A.O.S.S. Determination of iron in soils by flow injection atomic absorption spectrometry//Commun. Soil Sci. Plant Anal. 1998. Vol. 29. P. 2 407-2 414.
Ferreira A.M.R., Rangel A.O.S.S., Lima J.L.F.C. Determination of chloride in soils by flow injection potentiometric titration//Commun. Soil Sci. Plant Anal. 1996. Vol. 27. P. 1 437-1 445.
Falkova M., Alexovič M., Pushina M. et al. Fully automated on-line ﬂow-batch based ultrasound-assisted surfactant-mediated extraction and determination of anthraquinones in medicinal plants//Microchem. J. 2014. Vol. 116. P. 98-106.
Liawruangrath S., Makchit J., Liawruangrath B. Simple flow injection spectrophotometric procedure for the determination of diazepam in pharmaceutical formulation//Anal. Sci. 2006. Vol. 22. P. 127-130.
Tzanavaras P.D. Development and validation of a flow-injection assay for dissolution studies of the anti-depressant drug venlafaxine//Anal. Sci. 2005. Vol. 21. P. 1 515-1 518.
Abdurahman L.K., Al-Abachi A.M., Al-Qaissy M.H. Flow injection-spectrophotometeric determination of some catecholamine drugs in pharmaceutical preparations via oxidative coupling reaction with p-toluidine and sodium periodate//Anal. Chim. Acta. 2005. Vol. 538. P. 331-335.
Pistonesi M., Centurion M.E., Band B.S.F. et al. Simultaneous determination of levodopa and benserazide by stopped-ﬂow injection analysis and three-way multivariate calibration of kinetic-spectrophotometric data//J. Pharm. Biomed. Anal. 2004. Vol. 36. P. 541-547.
Fanjul-Bolado P., Lamas-Ardisana P.J., Hernández-Santos D. et al. Electrochemical study and ﬂow injection analysis of paracetamol in pharmaceutical formulations based on screen-printed electrodes and carbon nanotubes//Anal. Chim. Acta. 2009. Vol. 638. P. 133-138.
Corujo-Antuna J., Abad-Villar E.M., Fernandez-Abedul M.T. et al. Voltammetric and ﬂow amperometric methods for the determination of melatonin in pharmaceuticals//J. Pharm. Biomed. Anal. 2003. Vol. 31. P. 421-429.
Sultan S.M., Suliman F.E.O. Use of a sequential injection technique for mechanistic studies and kinetic determination of bromazepamcomplexed with iron(II) in hydrochloric acid//Analyst. 1996. Vol. 121. P. 617-621.
Polasíek M., Jambor M. Chemiluminescence determination of antibacterial drug trimethoprim by automated sequential injection technique with permanganate and hexametaphosphate as reagents//Talanta. 2002. Vol. 58. P. 1 253-1 261.
Pimenta A.M., Araujo A.N., Conceicao M. et al. Sequential injection analysis of captopril based on colorimetric and potentiometric detection//Anal. Chim. Acta. 2001. Vol. 438. P. 31-38.
Pimenta A.M., Araujo A.N., Conceicao M. et al. Simultaneous potentiometric and fluorimetric determination of diclofenac in a sequential injection analysis system//Anal. Chim. Acta. 2002. Vol. 470. P. 185-194.
Булатов А.В., Страшнова У.М., Вишникин А.Б. и др. Циклическое инжекционное фотометрическое определение аскорбиновой кислоты в лекарственных препаратах//Журн. аналит. химии. 2011. T. 66. C. 282-286.
Tipparat P., Lapanantnoppakhun S., Jakmunee J. et al. Determination of diphenhydramine hydrochloride in some single tertiary alkylamine pharmaceutical preparations by ﬂow injection spectrophotometry//J. Pharm. Biomed. Anal. 2002. Vol. 30. P. 105-112.
Nascimento R., Selva T.M.G., Ribeiro W.F. et al. Flow-injection electrochemical determination of citric acid using a cobalt (II)-phthalocyanine modiﬁed carbon paste electrode//Talanta. 2013. Vol. 105. P. 354-359.
Vakh C.S., Bulatov A.V., Shishov A.Y., Zabrodin A.V., Moskvin L.N. Determination of silicon, phosphorus, iron and aluminum in biodiesel by multicommutated stepwise injection analysis with сlassical least squares method//Fuel. 2014. Vol. 135. P. 198-294.
Paula D.T., Yamanaka H., Oliveira M.F., Stradiotto N.R. Determination of chloride in fuel ethanol using polyaniline-chemically modified electrode in flow injection analysis//Chem. Technol. Fuels Oils. 2008. Vol. 44. P. 435-440.

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