Abstract

The coordination states of trivalent praseodymium, neodymium, and dysprosium complexes in the ionic liquid, triethyl-n-pentylphosphonium bis(trifluoromethyl-sulfonyl) amide ([P2225][TFSA]) were investigated by Raman spectroscopy. The effect of the concentration of rare earth ions on the Raman spectra was investigated, ranging from 0.23 to 0.45 mol kg−1 of Pr(III), Nd(III), and Dy(III) in [P2225][TFSA]. Based on a conventional analysis, the solvation numbers, n, of Pr(III), Nd(III), and Dy(III) in [P2225][TFSA] were determined to be 4.99, 5.01, and 5.00 at 298 K and 5.04, 5.06, and 5.07 at 373 K, respectively.Thermodynamic properties such as ΔisoG, ΔisoH, and ΔisoS for the isomerism of [TFSA]− from trans- to cis-coordinated isomer in the bulk and the first solvation sphere of the central RE3+ (RE = Pr, Nd, and Dy) cation in [P2225][TFSA] were evaluated from the temperature dependence of the Raman bands, measured at temperatures ranging from 298 to 398 K. Regarding the bulk properties, ΔisoG(bulk), ΔisoH(bulk), and TΔisoS(bulk) at 298 K were found to be −1.06, 6.86, and 7.92 kJ mol−1, respectively. The trans-[TFSA]− was a dominant contributor to the enthalpy, as shown by the positive value of ΔisoH(bulk). The value of TΔisoS(bulk) was slightly larger than that of ΔisoH(bulk), and cis-[TFSA]− was, therefore, entropy-controlled in [P2225][TFSA]. In contrast, in the first solvation sphere of the RE3+ cation, ΔisoH(RE) became remarkably negative, suggesting that cis-[TFSA]− isomers were stabilized by enthalpic contributions. Furthermore, ΔisoH(RE) contributed to the remarkable decrease in ΔisoG(RE), and this result clearly indicates that cis-[TFSA]− conformers bound to RE3+ cations are the preferred coordination state of [RE(III)(cis-TFSA)5]2− in [P2225][TFSA].Moreover, optimized geometries and binding energies of [Pr(III)(cis-TFSA)5]2−, [Nd(III)(cis-TFSA)5]2−, and [Dy(III)(cis-TFSA)5]2− clusters were also investigated by DFT calculations using the ADF package. The bonding energy, ΔEb, was calculated as ΔEb = Etot(cluster) − Etot(RE3+) − nEtot([TFSA]−), and ΔEb ([Pr(III)(cis-TFSA)5]2−), ΔEb([Nd(III)(cis-TFSA)5]2−), and ΔEb([Dy(III)(cis-TFSA)5]2−) were calculated to be −4238.6 ± 6.8, −4362.3 ± 8.2, and −4284.2 ± 7.4 kJ mol−1, respectively. This series of structural results allows us to conclude that [Dy(III)(cis-TFSA)5]2− clusters are more stable state than the [Pr(III)(cis-TFSA)5]2− clusters in [P2225][TFSA]. Furthermore, the average atomic charges and the bond distances of these clusters were consistent with the thermodynamic properties.

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