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  • Title: Effective force coarse-graining.
    Author: Wang Y, Noid WG, Liu P, Voth GA.
    Journal: Phys Chem Chem Phys; 2009 Mar 28; 11(12):2002-15. PubMed ID: 19280011.
    Abstract:
    An effective force coarse-graining (EF-CG) method is presented in this paper that complements the more general multiscale coarse-graining (MS-CG) methodology. The EF-CG method determines effective pairwise forces between coarse-grained sites by averaging over the atomistic forces between the corresponding atomic groups in configurations sampled from equilibrium all-atom molecular dynamics simulations. The EF-CG method extracts the transferable part of the MS-CG force field at the cost of reduced accuracy in reproducing certain structural properties. Therefore, the EF-CG method provides an alternative to the MS-CG approach for determining CG force fields that give improved transferability but reduced structural accuracy. The EF-CG method is especially suitable for coarse-graining large molecules with high symmetry, such as bulky organic molecules, and for studying complex phenomena across a range of thermodynamic conditions. The connection between the EF-CG and MS-CG approaches as well as the limitations of the EF-CG method are also discussed. Numerical results for neopentane, methanol and ionic liquid systems illustrate the utility of the method.
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