摘要
Density functional theory calculations were performed to study the structures and relative stability of the gadolinium complexes, Gd(H2O)n^3+ (n=8,9), in vacuo and in aqueous solution. The polarizable continuum model with various radii for the solute cavity was used to study the relative stability in aqueous solution. The calculated molecular geometries for n=8 and 9 obtained in vacuo are consistent with those observed in experiments. It was found that while the nona-aqua complex is favored in the gas phase, in aqueous solution the octa-aqua conformation is preferred. This result, independent of the types of cavities employed, is in agreement with the experimental observation. The reliability of the present calculation was also addressed by comparing the calculated and experimental free energy of hydration, which revealed that the UA0, UAHF, and UAKS cavities are most appropriate when only the first solvation shell is treated explicitly.
基金
ACKNOWLEDGMENTS This work was supported by the National Natural Science Foundation of China (No.10804001, No.10674002, and No.20773024), the National High Technology Research and Development Program of China (No.2006AA09Z243-3), and the Program for Innovative Research Team in Anhui Normal University of China.
