Abstract
In materials science, crystal structures are the cornerstone in the structure–property paradigm. The description of crystal compounds may be ascribed to the number of different atomic chemical environments, which are related to the Wyckoff sites. Hence, a set of features related to the different atomic environments in a crystal compound can be constructed as input data for artificial neural networks (ANNs). In this article, we show the performance of a series of ANNs developed using crystal-site-based features. These ANNs were developed to classify compounds into halite, garnet, fluorite, hexagonal perovskite, ilmenite, layered perovskite, -o-tp- perovskite, perovskite, and spinel structures. Using crystal-site-based features, the ANNs were able to classify the crystal compounds with a 93.72% average precision. Furthermore, the ANNs were able to retrieve missing compounds with one of these archetypical structure types from a database. Finally, we showed that the developed ANNs were also suitable for a multitask learning paradigm, since the extracted information in the hidden layers linearly correlated with lattice parameters of the crystal structures.
Highlights
It is important to remember that the collection to develop the 4S4O-artificial neural networks (ANNs) did not have compounds with more than four
We have shown that crystal-site-based features enabled the ANNs to classify the crystal compounds with an average precision of 93.72%
The low scores obtained by the ANNs were ascribed to the availability in the database of compounds with a structure type
Summary
Machine learning algorithms have irrupted as an alternative tool to model the properties and structure of materials [1,2,3,4,5,6,7,8,9,10,11]. These algorithms have allowed scientists to work with large particle systems at shorter times and lower computational costs with respect to the recurred quantum methods [12,13,14,15].
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