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Hydrometallurgy of non-ferrous, rare and noble elements: problems and prospects
Adsorption
Название Achievements of molecular recognition technology in the hydrometallurgy
Автор Izatt S. R., Izatt N. E., Bruening R. L., Dale J. B.
Информация об авторе S. R. Izatt, President, General Director, e-mail: sizatt@ibcmrt.com; N. E. Izatt, R. L. Bruening, Dzh. B. Deyl, Employees of IBC Advanced Technologies Inc. Company.
Реферат
Molecular Recognition Technology (MRT) is described together with examples of its application to the commercial separation and recovery of several ions of non-ferrous metals from mixtures with sophisticated contents. Advantages of MRT over traditional separation methods are presented and discussed. MRT is non-ion exchange system that makes use of ligands of pre-determined selectivity that are chemically bonded to solid supports such as silica gel or polymer substrates (SuperLig®). The separations are highly selective, rapid, use minimal floor space, environmentally friendly and do not introduce new contaminants into the process. The examples of MRT using for recovery of metal ions from solutions with different chemical content have been presented. Use of MRT in laboratories for analytical sample pre-treatment is described.
Ключевые слова Molecular Recognition Technology, metal ions, selective metal separations via SuperLig® sorbents, metal purification, platinum group metals, transition metals, analytical sample pre-treatment.
Библиографический список

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10. Izatt S. R., Bruening R. L., Izatt N. E., Dale J. B. An Update On the Application of Molecular Recognition Technology (MRT) for Ni/Cu/Co Hydrometallurgical Process Separations and for the Purification of Cobalt Streams. Fifth Southern African Base Metals Conference. Kasane (Botswana), 2009.

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19. Izatt N. E., Dale J. B., Izatt S. R., Bruening R. L. Extraction and Recovery of Indium and Germanium from Primary and Secondary Hydrometallurgical Streams Using Molecular Recognition Technology. 2006, Sohn International Symposium on Advanced Processing of Metals and Materials : Principles, Technologies and Industrial Practice. San Diego (California), 2006.

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21. Izatt S. R., Bruening R. L., Izatt N. E., Dale J. B. The Application of Molecular Recognition Technology (MRT) in the Nuclear Power Cycle : From Uranium Mining and Refining to Power Plant Waste Separation and Recovery, as well as Element Analysis and Isotope Purification. WM 2009 Conference. Phoenix, 2009.

22. Izatt S. R., Bruening R. L., Krakowiak K. E., Izatt R. M. The Selective Separations of Anions and Cations in Nuclear Waste using Commercially Available Molecular Recognition Technology (MRT) Products. WM 2003 Conference. Tucson (USA), 2003.

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26. Yoshiaki F., Izatt S. R., Bruening R. L. and etc. Use of AnaLig® Molecular Recognition Technology (MRT) Products for Analysis of Gold and Platinum Group Metals. International Precious Metals Institute 32nd Annual Conference. Phoenix, 2008.

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