Thermodynamics of Li+–Crown Ether Interactions in Aqueous Solvent

Abstract: Lithium ion-based batteries are ubiquitous in modern technology due to applications in personal electronics and high-capacity storage for electric vehicles. Concerns about lithium supply and battery waste have prompted interest in lithium recycling methods. The crown ether, 12-crown-4, has been studied for its abilities to form stable complexes with lithium ions (\ce{Li+}). In this paper, molecular dynamics simulations are applied to examine the binding properties of a 12-crown-4—\ce{Li+} system in aqueous sol… Show more

“…The selectivity of crown ethers is driven by the size of the cation relative to the crown ether cavity and the strength of the interaction is related to the decrease in free energy associated with forming the complex. 27,28 It was found that stronger interactions led to increased partitioning and lower salt diffusivities. 29 Interestingly, strong interactions can lead to selective separations through partition driven gating; here, molecules with greater partition coefficients preferentially enter a confined pore thereby preventing other molecules from entering and subsequently diffusing through the membrane.…”

Isolating the effects of gate layer permeability and sorbent density on the performance of solute-selective polymeric ion pumps

“…The selectivity of crown ethers is driven by the size of the cation relative to the crown ether cavity and the strength of the interaction is related to the decrease in free energy associated with forming the complex. 27,28 It was found that stronger interactions led to increased partitioning and lower salt diffusivities. 29 Interestingly, strong interactions can lead to selective separations through partition driven gating; here, molecules with greater partition coefficients preferentially enter a confined pore thereby preventing other molecules from entering and subsequently diffusing through the membrane.…”

Isolating the effects of gate layer permeability and sorbent density on the performance of solute-selective polymeric ion pumps