Achieving highly efficient and selective cesium extraction using 1,3-di-octyloxycalix[4]arene-crown-6 in n-octanol based solvent system: experimental and DFT investigation

Abstract: Separation scheme was developed for selective extraction of long-lived fission product 137Cs using substituted calix crown 6 ether from aqueous acidic solution.

“…The recovered 137 Cs and 90 Sr radionuclides can be further purified as excellent heating or radiation sources for nuclear batteries, thermoelectric generators and cancer radiotherapy, providing feasible ways for their recycling and comprehensive utilization. [13][14][15] Hitherto, Cs + and Sr 2+ pollutants have been eliminated through a variety of technologies, like precipitation, 16,17 solvent extraction, 18,19 membrane filtration, 20,21 biological treatment, 22,23 and ion exchange. 24,25 However, there are some specific disadvantages with these methods.…”

“…Hitherto, Cs + and Sr 2+ pollutants have been eliminated through a variety of technologies, like precipitation, 16,17 solvent extraction, 18,19 membrane filtration, 20,21 biological treatment, 22,23 and ion exchange. 24,25 However, there are some specific disadvantages with these methods.…”

Structural investigation of the efficient capture of Cs⁺ and Sr²⁺ by a microporous Cd–Sn–Se ion exchanger constructed from mono-lacunary supertetrahedral clusters

“…The recovered 137 Cs and 90 Sr radionuclides can be further purified as excellent heating or radiation sources for nuclear batteries, thermoelectric generators and cancer radiotherapy, providing feasible ways for their recycling and comprehensive utilization. [13][14][15] Hitherto, Cs + and Sr 2+ pollutants have been eliminated through a variety of technologies, like precipitation, 16,17 solvent extraction, 18,19 membrane filtration, 20,21 biological treatment, 22,23 and ion exchange. 24,25 However, there are some specific disadvantages with these methods.…”

“…Hitherto, Cs + and Sr 2+ pollutants have been eliminated through a variety of technologies, like precipitation, 16,17 solvent extraction, 18,19 membrane filtration, 20,21 biological treatment, 22,23 and ion exchange. 24,25 However, there are some specific disadvantages with these methods.…”

Structural investigation of the efficient capture of Cs⁺ and Sr²⁺ by a microporous Cd–Sn–Se ion exchanger constructed from mono-lacunary supertetrahedral clusters

18-Crown-6-ether assembly of cesium ion-imprinted polymer enabling efficiently selective separation of cs(I) from aqueous solution

Assessing the feasibility study of highly efficient and selective co-sequestration process for cesium and strontium utilizing calix-crown and crown-ether based combined solvent systems