Isotope-abundance variations of selected elements (IUPAC Technical Report)

Isotope-abundance variations of selected elements (IUPAC Technical Report)

Documented variations in the isotopic compositions of some chemical elements are responsible for expanded uncertainties in the standard atomic weights published by the Commission on Atomic Weights and Isotopic Abundances of the International Union of Pure and Applied Chemistry. This report summarize...

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Bibliographic Details
Published in:Pure and applied chemistry Vol. 74; no. 10; pp. 1987 - 2017
Main Authors: Coplen, Tyler B., Böhlke, John Karl, De Bièvre, P., Ding, T., Holden, N. E., Hopple, J. A., Krouse, H. R., Lamberty, A., Peiser, H. S., Revesz, K., Rieder, S. E., Rosman, K. J. R., Roth, E., Taylor, P. D. P., Vocke, R. D., Xiao, Y. K.
Format: Journal Article
Language:English
Published: Berlin De Gruyter 01-10-2002
Walter de Gruyter GmbH
Subjects:
Abundance
Atomic properties
Atomic weights
Balances (scales)
Boron
Chemical composition
Chemical elements
Chemical fractionation
Chlorine
Chromium
Fractionation
Isotope ratios
Lithium
Magnesium
Organic chemistry
Palladium
Radioactive decay
Selenium
Tellurium
Thallium
Uncertainty analysis
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Summary:Documented variations in the isotopic compositions of some chemical elements are responsible for expanded uncertainties in the standard atomic weights published by the Commission on Atomic Weights and Isotopic Abundances of the International Union of Pure and Applied Chemistry. This report summarizes reported variations in the isotopic compositions of 20 elements that are due to physical and chemical fractionation processes (not due to radioactive decay) and their effects on the standard atomic-weight uncertainties. For 11 of those elements (hydrogen, lithium, boron, carbon, nitrogen, oxygen, silicon, sulfur, chlorine, copper, and selenium), standard atomic-weight uncertainties have been assigned values that are substantially larger than analytical uncertainties because of common isotope-abundance variations in materials of natural terrestrial origin. For 2 elements (chromium and thallium), recently reported isotope-abundance variations potentially are large enough to result in future expansion of their atomic-weight uncertainties. For 7 elements (magnesium, calcium, iron, zinc, molybdenum, palladium, and tellurium), documented isotope variations in materials of natural ter- restrial origin are too small to have a significant effect on their standard atomic-weight uncertainties. This compilation indicates the extent to which the atomic weight of an element in a given material may differ from the standard atomic weight of the element. For most elements given above, data are graphically illustrated by a diagram in which the materials are specified in the ordinate and the compositional ranges are plotted along the abscissa in scales of (1) atomic weight, (2) mole fraction of a selected isotope, and (3) delta value of a selected isotope ratio.
ISSN:0033-4545
1365-3075
DOI:10.1351/pac200274101987