Descriptors of atoms and structure information for predicting properties of crystalline materials - Sorbonne Université
Journal Articles Materials Research Express Year : 2021

Descriptors of atoms and structure information for predicting properties of crystalline materials

Jungho Shin
  • Function : Author
Tae-Wook Ko
  • Function : Author
Seunghee Lee
  • Function : Author
Hyunju Chang
  • Function : Author
Yunkyong Hyon
  • Function : Author
  • PersonId : 1093030

Abstract

Machine learning (ML) has increasingly been of interest in the design of new materials. However, it is still challenging to exploit an ML model in this field because its performance highly depends on the representation of materials, its properties, and the amount of data. In this study, for the cases of prediction of properties of crystalline materials, we explore a systematic comparison of two state-of-the-art frameworks: Crystal Graph Convolutional Neural Networks (CGCNNs) and the Sure Independence Screening and Sparsifying Operator (SISSO). The common key advantage of these two models is the fact that painstakingly handcrafted descriptors from simple material properties are not required. The main differences between the two models are (1) the use of structure information in the arbitrary size of compounds (CGCNN) and (2) limited interpretability (CGCNN) but simple and analytic relations between descriptor-property (SISSO). Using these two ML algorithms we evaluate the prediction performance on the target properties, which are band gap, formation energy, and elasticity of crystalline compounds in the database of Materials Project (MP). Moreover, to improve prediction of the properties of the materials without human bias in the selection of initial atomic features for the CGCNNs, we use Atom2Vec that provides atom representation obtained in an unsupervised manner from the materials. We also perform the predictions with the different sizes of training set to investigate the data-size dependency of the predictive models. According to the amount of dataset, the use of structural information, and the ability to identify the best descriptor with its interpretability, these algorithms showed different prediction performances. This result will enable researchers in materials discovery to gain appropriate choices and insights in various attempts to improve the prediction performance of crystalline materials' properties.
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Dates and versions

hal-03163241 , version 1 (09-03-2021)

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Jonggul Lee, Jungho Shin, Tae-Wook Ko, Seunghee Lee, Hyunju Chang, et al.. Descriptors of atoms and structure information for predicting properties of crystalline materials. Materials Research Express, 2021, 8 (2), pp.026302. ⟨10.1088/2053-1591/abe2d5⟩. ⟨hal-03163241⟩
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