Development of Coarse‐Grained Force Field by Combining Multilinear Interpolation Technique and Simplex Algorithm
A fast, reasonable, and transferable coarse‐grained (CG) molecular dynamics force field (FF) is essential to combine experimental and simulation data. However, the parameterization of CG FF usually requires massive computation, which hinders its rapid development. Here, we presented an efficient opt...
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Veröffentlicht in: | Journal of computational chemistry 2020-03, Vol.41 (8), p.814-829 |
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Sprache: | eng |
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Zusammenfassung: | A fast, reasonable, and transferable coarse‐grained (CG) molecular dynamics force field (FF) is essential to combine experimental and simulation data. However, the parameterization of CG FF usually requires massive computation, which hinders its rapid development. Here, we presented an efficient optimization protocol by combining multilinear interpolation technique with simplex algorithm. In this preliminary work, taking the experimental properties as the benchmark, we constructed a new set of CG FF for water and n‐alkanes by adopting piecewise Morse function to describe the nonbonded interactions. This CG FF has a delicate balance between efficiency, accuracy, and transferability and well reproduced the correct structural and thermodynamics properties of pure water and alkane liquids. More importantly, optimized Morse potential was also successfully applied to describe the interactions between water and n‐alkanes. It nicely predicted the phase separation, interface tension, hydration free energy, and formation of microemulsions of water/oil mixtures. © 2019 Wiley Periodicals, Inc.
The combination of global search and local refinement is essential in complex force field development. Here, the authors presented a global multilinear interpolation method (MIP) that is fast and easy to be implemented. As a demo, the authors combined MIP with a local simplex algorithm to develop efficient, accurate, and transferrable coarse‐grained force fields for water and alkanes. Routine of MIP combined with simplex. |
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ISSN: | 0192-8651 1096-987X |
DOI: | 10.1002/jcc.26131 |