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Machine learning and evolutionary prediction of superhard B-C-N compounds

Physics

Machine learning and evolutionary prediction of superhard B-C-N compounds

W. Chen, J. N. Schmidt, et al.

This groundbreaking research, conducted by Wei-Chih Chen, Joanna N. Schmidt, Da Yan, Yogesh K. Vohra, and Cheng-Chien Chen, showcases the power of random forests models to predict superhard materials from chemical formulas. The study reveals that a 1:1 B-N ratio can lead to several dynamically stable superhard compounds, pushing the boundaries of materials science through innovative machine learning techniques.

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~3 min • Beginner • English
Abstract
We build random forests models to predict elastic properties and mechanical hardness of a compound, using only its chemical formula as input. The model training uses over 10,000 target compounds and 60 features based on stoichiometric attributes, elemental properties, orbital occupations, and ionic bonding levels. Using the models, we construct triangular graphs for B-C-N compounds to map out their bulk and shear moduli, as well as hardness values. The graphs indicate that a 1:1 B-N ratio can lead to various superhard compositions. We also validate the machine learning results by evolutionary structure prediction and density functional theory. Our study shows that BC₁₀N, B₄C₅N₃, and B₂C₃N exhibit dynamically stable phases with hardness values >40 GPa, which are superhard materials that potentially could be synthesized by low-temperature plasma methods.
Publisher
npj Computational Materials
Published On
Jul 21, 2021
Authors
Wei-Chih Chen, Joanna N. Schmidt, Da Yan, Yogesh K. Vohra, Cheng-Chien Chen
Tags
random forests
elastic properties
mechanical hardness
superhard materials
B-C-N compounds
machine learning
density functional theory

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