V. T. Osipov, M. I. Gongola, Ye. A. Morkhova, A. P. Nemudryi, A. A. Kabanov
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引用次数: 0
摘要
摘要寻找新的固体离子导体是材料科学的一个重要课题,需要大量资源,但使用机器学习(ML)技术可以加快这一进程。在这项工作中,ML 方法被用于预测工作离子的迁移能。训练集基于 23 种离子导体中 225 个锂离子迁移通道的数据。描述符是通过 Voronoi 划分法获得的晶体自由空间参数。通过与密度泛函理论方法获得的数据进行比较,评估了迁移能预测的准确性。工作中应用了两种 ML 方法:支持向量回归和序数回归。结果表明,晶体中的自由空间参数与迁移能相关,而序数回归法获得了最佳结果。所开发的 ML 模型可用作分析固体离子传导性的附加过滤器。
Machine Learning As a Tool to Accelerate the Search for New Materials for Metal-Ion Batteries
The search for new solid ionic conductors is an important topic of material science that requires significant resources, but can be accelerated using machine learning (ML) techniques. In this work, ML methods were applied to predict the migration energy of working ions. The training set is based on data on 225 lithium ion migration channels in 23 ion conductors. The descriptors were the parameters of free space in the crystal obtained by the Voronoi partitioning method. The accuracy of migration energy prediction was evaluated by comparison with the data obtained by the density functional theory method. Two methods of ML were applied in the work: support vector regression and ordinal regression. It is shown that the parameters of free space in a crystal correlate with the migration energy, while the best results are obtained by ordinal regression. The developed ML models can be used as an additional filter in the analysis of ionic conductivity in solids.
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