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Abstract
A new approach for the efficient parametrization of the polarizable ionic liquid potential AMOEBA–IL, and its application to develop parameters for imidazolium– based cations is presented. The new approach relies on the development of parameters for fragments that can be transferred to generate new molecules. The parametrization uses the original AMOEBA–IL parametrization approach, in-
cluding the use of Gaussian Electrostatic Model-Distributed Multipoles (GEM-DM) for the permanent multipoles and approximation of the Van der Waals parameters using quantum mechanics energy decomposition analysis (QM-EDA) data. Based on this, functional groups of the selected initial structures are employed as building blocks to develop parameters for new imidazolium-based cations (symmetric or asymmetric) with longer alkyl chains. The parameters
obtained with this proposed method were compared with inter-molecular interactions from QM references via energy decomposition analysis using Symmetry Adapted Perturbation Theory (SAPT) and counterpoise corrected total inter-molecular interactions. The validation of the new parametrized cations was carried out by running molecular dynamics simulations on a series of imidazolium-based IL’s with different anions to compare selected thermodynamic and transport properties, including density ρ, enthalpy of vaporization ∆H vap , radial distribution function g(r), and diffusion coefficients D±, with experimental data.
Overall, the calculated gas–phase and bulk properties show agreement with the reference data. The new procedure provides a straightforward approach to generate the required AMOEBA–IL parameters for any imidazolium-based cation.
Supplementary materials
Title
Parameters fitting and additional data.
Description
This pdf contains the details on electrostatic term fit of AMOEBA-IL with the QM reference (SAPT) for a cations parameterized with the original procedure compared with one cation parameterized with the method proposed in this work. It also contains plots of densities, and rdf's of cations that could not be included in the principal paper.
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Title
Condesed data.
Description
This excell file contains in a condensed table all the densities, enthalpies of vaporization, and diffusion coefficient calculated values (also contains experimental values when available) for the cations studied in this work.
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Title
Dimers coordinates, distorted 5MIm and dynamics inputs.
Description
5MIm_distortion forlder contains the distorted structure of 5MIm used to test the AMOEBA-IL parameters to reproduce intra-molecular structural properties. Folder Dimers_coordinates_QM contains the coordinates of the dimers used to parameterize AMOEBA-IL parameters using SAPT as QM reference. It also contains inputs to run SAPT calculations in Psi4 as well as counterpoise analysis in Gaussian. Dynamics folder contains initial structures and velocities for the first temperature of production of the cations in their respective IL's.
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