Abstract
AbstractCyanex301 is considered as an important extractant in liquid–liquid extraction, while its dynamics in condensed phase remains unclear. By means of molecular dynamics simulations, the biphasic behavior of Cyanex301 in water–toluene binary solvents is addressed and compared to that of its two analogs, Cyanex272 and Cyanex302. The simulations shows that deprotonated ligands retard the de‐mixing of the binary solvents compared to their neutral counterparts, but display higher surface activity, and assemble in a more orderly manner at the interface. Increasing their concentrations results in the formation of microtubule‐like structures to maximize their contact with aqueous phase, which is not observed for their native states. The presence of counterion Na+ “salts out” ligands and enhances their distribution at the interface. This work complements experimental studies of the ligands with details of their conformations and distributions at the molecular level, and is expected to contribute to the extensive development of their applications in hydrometallurgy.
Published Version
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