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Artículo
Combining EXAFS and computer simulations to refine the structural description of actinyls in water
Autor/es | Pérez Conesa, Sergio
Martínez Fernández, José Manuel Rodríguez Pappalardo, Rafael Sánchez Marcos, Enrique |
Departamento | Universidad de Sevilla. Departamento de Química Física |
Fecha de publicación | 2020 |
Fecha de depósito | 2021-10-18 |
Publicado en |
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Resumen | EXAFS spectroscopy is one of the most used techniques to solve the structure of actinoid solutions. In this work a systematic analysis of the EXAFS spectra of four actinyl cations, [UO2]2+, [NpO2]2+, [NpO2]+ and [PuO2]2+ ... EXAFS spectroscopy is one of the most used techniques to solve the structure of actinoid solutions. In this work a systematic analysis of the EXAFS spectra of four actinyl cations, [UO2]2+, [NpO2]2+, [NpO2]+ and [PuO2]2+ has been carried out by comparing experimental results with theoretical spectra. These were obtained by averaging individual contributions from snapshots taken from classical Molecular Dynamics simulations which employed a recently developed [AnO2]2+/+ -H2O force field based on the hydrated ion model using a quantum-mechanical (B3LYP) potential energy surface. Analysis of the complex EXAFS signal shows that both An-Oyl and An-OW single scattering paths as well as multiple scattering ones involving [AnO2]+/2+ molecular cation and first-shell water molecules are mixed up all together to produce a very complex signal. Simulated EXAFS from the B3LYP force field are in reasonable agreement for some of the cases studied, although the k= 6-8 Å-1 region is hard to be reproduced theoretically. Except uranyl, all studied actinyls are open-shell electron configurations, therefore it has been investigated how simulated EXAFS spectra are affected by minute changes of An-O bond distances produced by the inclusion of static and dynamic electron correlation in the quantum mechanical calculations. A [NpO2]+-H2O force field based on a NEVPT2 potential energy surface has been developed. The small structural changes incorporated by the electron correlation on the actinyl aqua ion geometry, typically smaller than 0.07 Å, leads to improve the simulated spectrum with respect to that obtained from the B3LYP force field. For the other open-shell actinyls, [NpO2]2+ and [PuO2]2+, a simplified strategy has been adopted to improve the simulated EXAFS spectrum. It is computed taking as reference structure the NEVPT2 optimized geometry and including the DW factors of their corresponding MD simulations employing the B3LYP force field. A better agreement between the experimental and the simulated EXAFS spectra is found, confirming the a priori guess that the inclusion of dynamic and static correlation refine the structural description of the open-shell actinyl aqua ions. |
Identificador del proyecto | US-1264472 |
Cita | Pérez Conesa, S., Martínez Fernández, J.M., Rodríguez Pappalardo, R. y Sánchez Marcos, E. (2020). Combining EXAFS and computer simulations to refine the structural description of actinyls in water. Molecules, 25 (22), 5250. |
Ficheros | Tamaño | Formato | Ver | Descripción |
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Combining EXAFS and Computer.pdf | 1.380Mb | [PDF] | Ver/ | |