Author
Listed:
- Nicolas Regnault
(Princeton University
ENS, Université PSL, CNRS, Sorbonne Université, Université Paris-Diderot, Sorbonne Paris Cité)
- Yuanfeng Xu
(Max Planck Institute of Microstructure Physics)
- Ming-Rui Li
(Tsinghua University)
- Da-Shuai Ma
(Beijing Institute of Technology)
- Milena Jovanovic
(Princeton University)
- Ali Yazdani
(Princeton University)
- Stuart S. P. Parkin
(Max Planck Institute of Microstructure Physics)
- Claudia Felser
(Max Planck Institute for Chemical Physics of Solids)
- Leslie M. Schoop
(Princeton University)
- N. Phuan Ong
(Princeton University)
- Robert J. Cava
(Princeton University)
- Luis Elcoro
(University of the Basque Country UPV/EHU)
- Zhi-Da Song
(Princeton University)
- B. Andrei Bernevig
(Princeton University
Donostia International Physics Center
Basque Foundation for Science)
Abstract
Topological electronic flattened bands near or at the Fermi level are a promising route towards unconventional superconductivity and correlated insulating states. However, the related experiments are mostly limited to engineered materials, such as moiré systems1–3. Here we present a catalogue of the naturally occuring three-dimensional stoichiometric materials with flat bands around the Fermi level. We consider 55,206 materials from the Inorganic Crystal Structure Database catalogued using the Topological Quantum Chemistry website4,5, which provides their structural parameters, space group, band structure, density of states and topological characterization. We combine several direct signatures and properties of band flatness with a high-throughput analysis of all crystal structures. In particular, we identify materials hosting line-graph or bipartite sublattices—in either two or three dimensions—that probably lead to flat bands. From this trove of information, we create the Materials Flatband Database website, a powerful search engine for future theoretical and experimental studies. We use the database to extract a curated list of 2,379 high-quality flat-band materials, from which we identify 345 promising candidates that potentially host flat bands with charge centres that are not strongly localized on the atomic sites. We showcase five representative materials and provide a theoretical explanation for the origin of their flat bands close to the Fermi energy using the S-matrix method introduced in a parallel work6.
Suggested Citation
Nicolas Regnault & Yuanfeng Xu & Ming-Rui Li & Da-Shuai Ma & Milena Jovanovic & Ali Yazdani & Stuart S. P. Parkin & Claudia Felser & Leslie M. Schoop & N. Phuan Ong & Robert J. Cava & Luis Elcoro & Zh, 2022.
"Catalogue of flat-band stoichiometric materials,"
Nature, Nature, vol. 603(7903), pages 824-828, March.
Handle:
RePEc:nat:nature:v:603:y:2022:i:7903:d:10.1038_s41586-022-04519-1
DOI: 10.1038/s41586-022-04519-1
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Cited by:
- Timperio, Giuseppe & Kundu, Tanmoy & Klumpp, Matthias & de Souza, Robert & Loh, Xiu Hui & Goh, Kelvin, 2022.
"Beneficiary-centric decision support framework for enhanced resource coordination in humanitarian logistics: A case study from ASEAN,"
Transportation Research Part E: Logistics and Transportation Review, Elsevier, vol. 167(C).
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