AI Article Synopsis
- Molecular dynamics is becoming a key method for predicting material properties and enhancing material design, but its accuracy relies heavily on the force fields used.
- Traditional calibration of these force fields involves adjusting parameters based on specific experimental observations, which often results in models that can't generalize well to different properties.
- A new approach using multiobjective Bayesian optimization has been developed to create more versatile force fields by efficiently generating a range of property predictions with fewer simulations, exemplified by a new coarse-grained force field for polycaprolactone that successfully predicts both mechanical properties and water diffusion.
Article Abstract
Molecular dynamics at the atomistic scale is increasingly being used to predict material properties and speed up the material design and development process. However, the accuracy of molecular dynamics predictions is sensitively dependent on the force fields. In the traditional force field calibration process, a specific property, predicted by the model, is compared with the experimental observation and the force field parameters are adjusted to minimize the difference. This leads to the issue that the calibrated force fields are not generic and robust enough to predict different properties. Here, a new calibration method based on multiobjective Bayesian optimization is developed to speed up the development of molecular dynamics force fields that are capable of predicting multiple properties accurately. This is achieved by reducing the number of simulation runs to generate the Pareto front with an efficient sequential sampling strategy. The methodology is demonstrated by generating a new coarse-grained force field for polycaprolactone, where the force field can predict the mechanical properties and water diffusion in the polymer.
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| http://dx.doi.org/10.1021/acs.jpca.0c01939 | DOI Listing |
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