摘要:
A multicolumn selectivity inversion generator has been developed in which bismuth-213 is selectively extracted from an HC1 solution of the actinium-225 parent (and its radiogenic descendents) by a primary separation column containing a separation medium containing a neutral oxygenated organophosphorus extractant. After rinsing with dilute HC1, the bismuth-213 is stripped with a buffered NaC1 solution. The stripped solution is passed through a cation-exchange resin guard column that retains the actinium-225 and radium-225 contaminants while the bismuth-213 elutes. This generator method minimizes the unpredictable effects of radiation damage to the support material and permits the reliable production of bismuth-213 of high chemical and radionuclidic purity.
摘要:
A gas-free system for separating a solution of substantially impurity-free daughter products from an associated parent load solution includes a pump (16), a plurality of multi-port valves (18, 20, 22), separation medium (24) and a processor. An uncoiled conduit (38) extends between a third port of a second multi-port valve (20) and a first multi-port valve (18). A processor is operably coupled to a pump (16), and the plurality of multi-port valves (18, 20, 22). A method for separating a solution of substantially impurity-free daughter product from an associated parent load solution is also disclosed.
摘要:
A method and apparatus are provided for automatically separating radionuclides using a chromatographic separation process. The method includes the steps of displaying a first flow diagram on a display depicting flow of the radionuclides through a first set of separation elements of the plurality of separation processing elements, but only during a first step of the chromatographic separation process and displaying a second flow diagram on the display depicting flow of the radionuclides through a second set of separation elements of the plurality of separation processing elements, but only during a second step of the chromatographic separation process.
摘要:
Cellulose is dissolved in an ionic liquid without derivatization, and is regenerated in a range of structural forms without requiring the use of harmful or volatile organic solvents. Cellulose solubility and the solution properties can be controlled by the selection of the ionic liquid constituents, with small cations and halide or pseudohalide anions favoring solution.