Abstract
AbstractGarnets have found important applications in modern technologies including magnetorestriction, spintronics, lithium batteries, etc. The overwhelming majority of experimentally known garnets are oxides, while explorations (experimental or theoretical) for the rest of the chemical space have been limited in scope. A key issue is that the garnet structure has a large primitive unit cell, requiring a substantial amount of computational resources. To perform a comprehensive search of the complete chemical space for new garnets, we combine recent progress in graph neural networks with high-throughput calculations. We apply the machine learning model to identify the potentially (meta-)stable garnet systems before performing systematic density-functional calculations to validate the predictions. We discover more than 600 ternary garnets with distances to the convex hull below 100 meV ⋅ atom−1. This includes sulfide, nitride, and halide garnets. We analyze their electronic structure and discuss the connection between the value of the electronic band gap and charge balance.
Funder
GCS Supercomputer SuperMUC-NG at the Leibniz Supercomputing Centre
Publisher
Springer Science and Business Media LLC
Subject
Computer Science Applications,Mechanics of Materials,General Materials Science,Modeling and Simulation
Reference44 articles.
1. Yoder, H. & Keith, M. Complete substitution of aluminum for silicon: the system 3MnO ⋅ Al2O3 ⋅ 3SiO2—3Y2O3 ⋅ 5Al2O3. Am. Mineral. 36, 519–533 (1951).
2. Bertaut, F. & Forrat, F. Structure of ferrimagnetic rare-earth ferrites. CR Acad. Sci 242, 382 (1956).
3. LeCraw, R. C., Spencer, E. G. & Porter, C. S. Ferromagnetic resonance line width in yttrium iron garnet single crystals. Phys. Rev. 110, 1311–1313 (1958).
4. Palik, E. D. Handbook of Optical Constants of Solids, vol. 3 (Academic press, 1998).
5. Luke, A. M., Mathew, S., Altawash, M. M. & Madan, B. M. Lasers: A review with their applications in oral medicine. J Lasers Med Sci. 10, 324 (2019).
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