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High-throughput computational screening for two-dimensional magnetic materials based on experimental databases of three-dimensional compounds

Torelli, Daniele, Moustafa, Hadeel, Jacobsen, Karsten W., Olsen, Thomas

2020Technical University of Denmark, DTU Orbit (Technical University of Denmark, DTU)88 citationsOpen Access PDF

Abstract

We perform a computational screening for two-dimensional magnetic materials based on experimental bulk compounds present in the Inorganic Crystal Structure Database and Crystallography Open Database. A recently proposed geometric descriptor is used to extract materials that are exfoliable into two-dimensional derivatives and we find 85 ferromagnetic and 61 anti-ferromagnetic materials for which we obtain magnetic exchange and anisotropy parameters using density functional theory. For the easy-axis ferromagnetic insulators we calculate the Curie temperature based on classical Monte Carlo simulations of anisotropic Heisenberg models. We find good agreement with the experimentally reported Curie temperatures of known 2D ferromagnets and identify 10 potentially exfoliable two-dimensional ferromagnets that have not been reported previously. In addition, we find 18 easy-axis anti-ferromagnetic insulators with several compounds exhibiting very strong exchange coupling and magnetic anisotropy.

Topics & Concepts

FerromagnetismCurie temperatureAnisotropyCondensed matter physicsDensity functional theoryMagnetic anisotropyMaterials scienceMonte Carlo methodCurieHeisenberg modelMagnetizationPhysicsMagnetic fieldMathematicsQuantum mechanicsStatisticsMachine Learning in Materials Science2D Materials and ApplicationsAdvanced Condensed Matter Physics
High-throughput computational screening for two-dimensional magnetic materials based on experimental databases of three-dimensional compounds | Litcius