L. Manna scite author profile

L. Manna

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Flame Spectrophotometric Determination of Microgram Quantities of Copper

Manna¹,

Strunk²,

Adams³

1956

Anal. Chem.

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No detailed procedures have previously been published for the rapid, precise, and convenient determination of micro quantities of copper. Flame spectrophotometric studies at the copper line (324.7 µ) showed that the radiant power of copper was greatly enhanced by aspirating from an 80% methanol solvent. Interference studies indicated that nitric acid could be tolerated in appreciable quantities. Most cations show considerable radiation interference; however, the increase in the radiant power of copper caused by the addition of nine cations to standard copper solutions was determinable at a wave length of 325.1 mg. Inasmuch as no preliminary separations are necessary, the method is adaptable to routine determinations.The results are as accurate as conventional microchemical procedures.ALTHOUGH there are many publications on the determina-jTX. tion of alkali and alkaline earth metals by flame photometry, relatively few investigators have reported on the flame photometric determination of copper (1,3,(9)(10)(11)(15)(16)(17). Of these, only Dean (3) and Jordan ( 11) have described methods in detail. Dean (S) worked with nonferrous alloys containing copper in the range from 0.3 to 2.5%, and Jordan (11) analyzed for small amounts of copper in a hydrochloric acid extract of gasoline.Work by Dean and Lady (5,13) indicates that copper can be determined in micro quantities by flame photometry after a preliminary extraction of the copper as the salicylaldoxime with either chloroform or amyl acetate. Table I. Radiant Power of 4 per Ml. of Copper with Various Alcohols as Solvent Radiant Power, Scale Divisions0 Alcohol % Cu + ROH ROH Net Ci Methanol 95 54.2

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Flame Spectrophotometric Determination of Microgram Quantities of Magnesium

Manna¹,

Strunk²,

Adams³

1957

Anal. Chem.

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L. Manna

Flame Spectrophotometric Determination of Microgram Quantities of Copper

Flame Spectrophotometric Determination of Microgram Quantities of Magnesium

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