Journal
NATURE REVIEWS MATERIALS
Volume 6, Issue 3, Pages 201-206Publisher
NATURE RESEARCH
DOI: 10.1038/s41578-021-00284-1
Keywords
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Funding
- Welch Foundation [F-2018-20190330]
- National Science Foundation [DMR-1720595]
- Army Research Office [W911NF-17-1-0312]
- US Department of Energy (DOE) [DOE-FG02-99ER45742]
- Gordon and Betty Moore Foundation [GBMF9453]
- DOE [DE-FG0202ER45958]
- Gordon and Betty Moore Foundation's Emergent Phenomena in Quantum Systems (EPiQS) Initiative [GBMF9643]
- Fundacion Ramon Areces
- US Office of Naval Research [N00014-20-1-2609]
- Gordon and Betty Moore Foundation as part of the EPiQS initiative [GBMF 9469]
- DOE-BES grant [DOE-FG0207ER46419, NSF-DMR-2011750, NSF-DMR-1904442]
- Air Force Office of Scientific Research [FA955020-1-0219]
- NSF [DMR-1911666]
- Simons Foundation
- Ministry of Economy and Competitiveness of Spain through the Severo Ochoa programme for centres of excellence in research and development [SE5-0522]
- Fundacio Privada Cellex
- Fundacio Privada Mir-Puig
- Generalitat de Catalunya through the CERCA program
- La Caixa Foundation
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Moire systems formed by 2D atomic layers have versatile electrical and optical properties, hosting exotic phenomena like superconductivity, correlated insulator states, and orbital magnetism. In this Viewpoint, researchers studying various aspects of moire materials discuss the most exciting directions in this rapidly expanding field.
Moire systems formed by 2D atomic layers have widely tunable electrical and optical properties and host exotic, strongly correlated and topological phenomena, including superconductivity, correlated insulator states and orbital magnetism. In this Viewpoint, researchers studying different aspects of moire materials discuss the most exciting directions in this rapidly expanding field.
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