Abstract

Interpolymer systems based on ion exchange resins Lewatit CNP LF and AB-17-8were used to separate metal ions from sample solutions containing lutetium and scandium.The researchaimsto achieve maximum absorption of lutetium and scandium ions by using the remote interaction effect of macromolecular polymers.Methodology.Jenway-6305 spectrophotometer (SK) was used to determine the residual concentration of metal ions in the solution.The obtained resultsshow that individual polymers Lewatit(6:0) and AB-17-8 (0:6) do not have a higher absorption of lutetium ions (24.96% and 21.13%, respectively) rather than interpolymer systems. The maximum degree of extraction of lutetium ions is observed at a ratio of 4:2.The maximum values of the degree of absorption of scandium ions are observed at ratios of 5:1 and 1:5.As a result of the conducted studies, it was found that with an increase in the amount of one polymer in the interpolymer pair, the degree of binding of the second polymer to the metal ion increases. The LewatitCNP LFcation exchanger has a binding degree of 2.99 mg/mol in a ratio of 6:0, and with an increase in the amount of anion exchanger AB-17-8 by 5times, the binding degree of the cation exchanger in a ratio of 1:5 has increased to13.84 mg/mol. The binding degree of AB-17-8 in the ratio of 0:6 increased from 2.03 mg/mol to 12.20 mg/mol witharatio of interpolymer systems of 5:1.The degree of binding of the cation exchanger with the lutetium ion increased by 4.5 times, and the degree of binding of the anion exchanger increased by 6times.Conclusion.The results obtained show the possibility of using interpolymer systems for the extraction of lutetium and scandium ions from industrial aqueous solutions.

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