EXTRACTION OF SOME ELEMENTS AS IODIDES FROM SULPHURIC ACID--POTASSIUM IODIDE MEDIA WITH TOLUENE, AND ITS APPLICATION TO NEUTRON ACTIVATION ANALYSIS. PART I. EXTRACTION BEHAVIOUR OF As, Br, Cd, Cu, Ga, Ge, In, Hg, Mo, Sb, Se, Sn, W, AND Z.
- Author
- Byrne, A. R
- Published
- [Place of publication not identified] : [publisher not identified], 1971.
[Oak Ridge, Tennessee] : [U.S. Atomic Energy Commission], 1971. - Physical Description
- microfiche : negative ; 11 x 15 cm
- Report Numbers
- IJS-R-596
- Other Subject(s)
- Activation analysis
- Activation analysis/separation processes in neutron, extraction of elements as iodides from sulfuric acid-potassium iodide media with toluene for use as.
- Antimony
- Arsenic
- Arsenic/separation from sulfuric acid-potassium iodide media by solvent extraction using toluene
- Bromine
- Bromine/separation from sulfuric acid- potassium iodide
- Cadmium
- Copper
- Gallium
- Gallium/separation from sulfuric acid-potassium iodide media by solvent extraction using toluene
- Germanium
- Germanium/separation from sulfuric acid-potassium iodide media by solvent extraction using toluene
- Indium
- Indium/separation from sulfuric acid-potassium iodide media by solvent extraction using toluene
- Iodides
- Mercury
- Mercury/separation from sulfuric acid-potassium iodide media by solvent extraction using toluene
- Molybdenum
- N40110 -chemistry-analytical & separations chemistry- activation & nuclear reaction procedures
- Neutron beams
- Potassium iodide
- Quantitative chemical analysis
- Selenium
- Separation processes
- Solvent extraction
- Sulfuric acid
- Tin
- Tin/separation from sulfuric acid-potassium iodide media by solvent extraction using toluene
- Toluene
- Tungsten
- Tungsten/separation from sulfuric acid- -potassium iodide media by solvent extraction using toluene
- Zinc
- Zinc/separation from sulfuric acid-potassium iodide media by solvent extraction using toluene
- Collection
- U.S. Atomic Energy Commission depository collection.
- Note
- NSA number: NSA-26-014661
OSTI Identifier 4669752
Research organization: Institut Jozef Stefan, Ljubljana (Yugoslavia).
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