Sample Preparation for Flame Photometry Ion Exchange Separation of Copper, Maganese, and Iron

Schrenk, W. G.; Johnson, Russell W.

doi:10.1021/ac60180a053

Cited by 4 publications

(1 citation statement)

References 8 publications

(5 reference statements)

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“…Jarman, Manolitsis, and Matic (221) determined traces of lead in gold by organic solvent extraction and developed an ion exchange separation for the determination of copper and silver in high-purity gold. Schrenk and Johnson (435) described an ion exchange separation technique for the flamephotometric determination of copper, manganese, and iron. Rubeska (421) concentrated rubidium from rocks prior to determination by carrier precipitation, and Anderson, Jensen, and Keiding (8) determined magnesium in blood plasma after its separation as Mg-NH4PO4.…”

Section: Analysis Of Nonmetalsmentioning

confidence: 99%

Emission Spectrometry.

Scribner¹,

Margoshes²

1964

Anal. Chem.

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This review, the eighth in a series on emission spectrometry, covers the period 1962 through December 1963 with some material that appeared in 1961. The review for the preceding period had been divided into three separate sections: emission spectrometry (441), emission flame photometry (305), and absorption flame photometry (159). These topics are treated together in this review and the discussions on flame photometry and atomic absorption spectroscopy are located toward the end of the review. Following the plan of earlier reviews, attention has been given to contribution of basic importance or applications that are new, unique, or extensive. The 565 references cited represent about one quarter of the publications treating of analytical emission spectrometry which appeared

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Section: Analysis Of Nonmetalsmentioning

confidence: 99%