Abstract
The compilation gives a survey of methods for {sup 90}Sr and {sup 89}Sr determination. Methods based on liquid scintillators and the Cherenkov radiation are enjoying progress. Precipitation processes are superseded by extraction methods, which contribute to rapidity of the analysis. Crowns (cyclic ethers) seem to be the most promising reagents for strontium separation. For the various measuring methods a large number exists of relations for the calculation of strontium activity. Brief information is presented on the occurrence and properties of strontium and its behavior in living organisms. Examples are given of the determination of radiostrontium in seawater, precipitations, in plants, teeth, milk, in mammal tissues and in soil. Sources of error and analytical quality assurance problems are discussed. (M.D.). 11 tabs., 136 refs.
Citation Formats
Kyrs, M, and Selucky, P.
Current situation of expeditious radiochemical {sup 90}Sr and {sup 89}Sr determination in environmental objects; Soucasny stav metod rychleho radiochemickeho stanoveni {sup 90}Sr a {sup 89}Sr v objektech zivotniho prostredi.
Serbia and Montenegro: N. p.,
1991.
Web.
Kyrs, M, & Selucky, P.
Current situation of expeditious radiochemical {sup 90}Sr and {sup 89}Sr determination in environmental objects; Soucasny stav metod rychleho radiochemickeho stanoveni {sup 90}Sr a {sup 89}Sr v objektech zivotniho prostredi.
Serbia and Montenegro.
Kyrs, M, and Selucky, P.
1991.
"Current situation of expeditious radiochemical {sup 90}Sr and {sup 89}Sr determination in environmental objects; Soucasny stav metod rychleho radiochemickeho stanoveni {sup 90}Sr a {sup 89}Sr v objektech zivotniho prostredi."
Serbia and Montenegro.
@misc{etde_10108610,
title = {Current situation of expeditious radiochemical {sup 90}Sr and {sup 89}Sr determination in environmental objects; Soucasny stav metod rychleho radiochemickeho stanoveni {sup 90}Sr a {sup 89}Sr v objektech zivotniho prostredi}
author = {Kyrs, M, and Selucky, P}
abstractNote = {The compilation gives a survey of methods for {sup 90}Sr and {sup 89}Sr determination. Methods based on liquid scintillators and the Cherenkov radiation are enjoying progress. Precipitation processes are superseded by extraction methods, which contribute to rapidity of the analysis. Crowns (cyclic ethers) seem to be the most promising reagents for strontium separation. For the various measuring methods a large number exists of relations for the calculation of strontium activity. Brief information is presented on the occurrence and properties of strontium and its behavior in living organisms. Examples are given of the determination of radiostrontium in seawater, precipitations, in plants, teeth, milk, in mammal tissues and in soil. Sources of error and analytical quality assurance problems are discussed. (M.D.). 11 tabs., 136 refs.}
place = {Serbia and Montenegro}
year = {1991}
month = {Dec}
}
title = {Current situation of expeditious radiochemical {sup 90}Sr and {sup 89}Sr determination in environmental objects; Soucasny stav metod rychleho radiochemickeho stanoveni {sup 90}Sr a {sup 89}Sr v objektech zivotniho prostredi}
author = {Kyrs, M, and Selucky, P}
abstractNote = {The compilation gives a survey of methods for {sup 90}Sr and {sup 89}Sr determination. Methods based on liquid scintillators and the Cherenkov radiation are enjoying progress. Precipitation processes are superseded by extraction methods, which contribute to rapidity of the analysis. Crowns (cyclic ethers) seem to be the most promising reagents for strontium separation. For the various measuring methods a large number exists of relations for the calculation of strontium activity. Brief information is presented on the occurrence and properties of strontium and its behavior in living organisms. Examples are given of the determination of radiostrontium in seawater, precipitations, in plants, teeth, milk, in mammal tissues and in soil. Sources of error and analytical quality assurance problems are discussed. (M.D.). 11 tabs., 136 refs.}
place = {Serbia and Montenegro}
year = {1991}
month = {Dec}
}