Accelerated Discovery of the Valley-Polarized Quantum Anomalous Hall Effect in MXenes
ORAL
Abstract
The topological phase preserved by spontaneous magnetization in non-centrosymmetric two-dimensional systems leads to valley-polarized quantum anomalous Hall (VP-QAH) insulators. Because of these strict criteria, the VP-QAH effect has been observed in a very few materials. We applied a high-throughput first-principles approach, wherein the magnetic and topological properties of inversion symmetry-broken 2D MXenes are screened, systematically. We find 14 MXenes having the out-of-plane ferromagnetic ground state in the presence of spin−orbit coupling. The nontrivial Berry curvature and chiral edge states confirm the VP-QAH effect in these MXenes. Furthermore, using basic elemental features, we have developed a machine-learning-based magnetic nodal line semimetal classification model and a regression model, which accurately predict both the nodal positions. Our study provides a robust platform to incorporate valley and topological physics, which would accelerate the search for promising VP-QAH materials.
*The authors acknowledge Materials Research Centre (MRC), Solid State Structural and Chemistry Unit (SSCU), and Supercomputer Education and Research Centre (SERC), Indian Institute of Science, for providing the computational facilities. The authors thank the DST India−Korea Joint Programme of Cooperation in Science and Technology for their support. The authors acknowledge support from the Institute of Eminence (IoE) scheme of The Ministry of Human Resource Development, Government of India. The authors also acknowledge support from DST Nanomission.
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Publication:Ranjan Kumar Barik and Abhishek Kumar Singh "Accelerated Discovery of the Valley-Polarized Quantum Anomalous Hall Effect in MXenes" Chem. Mater. 33, 16, 6311–6317 (2021)
