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

Булатов Андрей Васильевич; Москвин А.Л.; Москвин Л.Н.; Вах К.С.; Фалькова М.Т.; Шишов А.Ю.; Bulatov Andrey Vasilevich; Moskvin А.L.; Moskvin L.N.; Vakh Ch. S.; Falkova М.Т.; Shishov А.Y.

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 | УДК: 543.4

Automation and miniaturization of chemical analysis on the principles of flow methods (review)

The main trends, principles and capabilities of the known flow methods are presented. The significance of flow methods in the development of "green analytical chemistry" as well as implemented method of determination are discussed. Particular attention is paid to the stage of sample preparation which includes separation and preconcentration. The application of flow methods for the automation of environmental, pharmaceutical and radiochemical analysis is presented.

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