Internal reflection spectroscopy for FTIR analysis of carboxylate adsorption by semi-soluble salt minerals

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Publication Type Journal Article
School or College College of Mines & Earth Sciences
Department Metallurgical Engineering
Creator Miller, Jan D.
Other Author Kellar, J. J.
Title Internal reflection spectroscopy for FTIR analysis of carboxylate adsorption by semi-soluble salt minerals
Date 1999
Description Flotation chemists have long sought to unravel the mechanisms of carboxylate collector adsorption by semi-soluble salt minerals. In particular, the adsorption density of adsorbed carboxylates, adsorption kinetics, speciation (chemisorbed, physisorbed), orientation, and conformation are of interest. Given the importance of these phenomena in establishing the hydrophobic state at a mineral surface, in-situ surface spectroscopy studies certainly are justified. Such measurements traditionally have been difficult to perform. However, beginning in the late 1980s, a Fourier transform infrared (FTIR) spectroscopic technique was developed that has allowed for the acquisition of a wealth of detailed information concerning carboxylate adsorption in semi-soluble salt flotation systems. The technique, internal reflection spectroscopy using single-crystal internal reflection elements, is reviewed, as it applies to semi-soluble salt flotation systems.
Type Text
Publisher Society for Mining, Metallurgy, and Exploration
First Page 45
Last Page 58
Subject Carboxylate collector adsorption; Salt minerals; Internal reflection spectroscopy
Subject LCSH Flotation; Adsorption; Separation (Technology)
Language eng
Bibliographic Citation Miller, J. D., & Kellar, J. J. (1999). Internal reflection spectroscopy for FTIR analysis of carboxylate adsorption by semi-soluble salt minerals. Parekh, B. K. & Miller, J. D., eds. Advances in Flotation Technology - A Symposium in Honor of M. C. Fuerstenau, 45-58.
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Reference URL https://collections.lib.utah.edu/ark:/87278/s65x2ths