AI Article Synopsis
- The study examines the liquid structure of the ionic liquid 1-ethyl-3-methylimidazolium acetate using molecular dynamics simulation and neutron diffraction at 323 K, focusing on its effectiveness as a solvent for cellulosic biomass.
- Analysis reveals a distinct arrangement of anions around the cation, with significant in-plane interactions between anions and the imidazolium cation, as well as notable cation stacking.
- The findings indicate that the acetate anion enhances organization among anions, suggesting the formation of hydrophobic areas in the liquid, and emphasize the need for precise scaling of ionic charges in simulations to match experimental results.
Article Abstract
The liquid state structure of the ionic liquid, 1-ethyl-3-methylimidazolium acetate ([C(2)mim][OAc]), an excellent nonderivitizing solvent for cellulosic biomass, has been investigated at 323 K by molecular dynamics (MD) simulation and by neutron diffraction using the SANDALS diffractometer at ISIS to provide experimental differential neutron scattering cross sections from H/D isotopically substituted materials. Ion-ion radial distribution functions both calculated from MD and derived from the empirical potential structure refinement (EPSR) model to the experimental data show the alternating shell structure of anions around the cation, as anticipated. Spatial probability distributions reveal the main anion-to-cation features as in-plane interactions of anions with the three imidazolium ring hydrogens and cation-cation planar stacking above/below the imidazolium rings. Interestingly, the presence of the polarized hydrogen-bond acceptor (HBA) anion (acetate) leads to an increase in anion-anion tail-tail structuring within each anion shell, an indicator of the onset of hydrophobic regions within the anion regions of the liquid. MD simulations show the importance of scaling of the effective ionic charges in the basic simulation approach to accurately reproduce both the observed experimental neutron scattering cross sections and ion self-diffusion coefficients.
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