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The Magnetic Genome of Two-Dimensional van der Waals Materials

ACS NANO (2022)

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Journal

ACS NANO
Volume 16, Issue 5, Pages 6960-7079

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acsnano.1c09150

Keywords

2D magnetic materials; van der Waals; CrI3; magneto-optical effect; neutron scattering; Fe3GeTe2; magnetic genome; atomistic spin dynamics

Categories

Chemistry, Multidisciplinary Chemistry, Physical Nanoscience & Nanotechnology Materials Science, Multidisciplinary

Funding

  1. Center for Precision Assembly of Superstratic and Superatomic Solids, a U.S. National Science Foundation (NSF) MRSEC [DMR-2011738, DMR-1420634]
  2. Air Force Office of Scientific Research [FA9550-18-10020]
  3. Center on Programmable Quantum Materials, Energy Frontier Research Center - U.S. Department of Energy (DOE), Office of Science, Basic Energy Sciences (BES) [DE-SC0019443]
  4. National Research Foundation of Korea - Korean Government [NRF2021R1C1C1012394]
  5. Ministry of Education (Singapore) [EDUN C-33-18-279V12]
  6. Wolfson Merit Award from the Royal Society
  7. Chair in Emerging Technology from the Royal Academy of Engineering
  8. EPSRC [EP/P029892/1, EP/P020267/1, EP/T021578/1]
  9. ERC [725920]
  10. EU Horizon 2020 research and innovation program [820423]
  11. University Research Fellowship from the Royal Society [URF/R1/211484]
  12. NSF CAREER [DMR-174774]
  13. AFOSR [FA9550-21-1-0065]
  14. EU project ASTERIQS
  15. European Research Council via SMeL DFG [GRK 2642, FOR 2724]
  16. Army Research Office (ARO) [W911NF-17-1-0023]
  17. Quantum Science Center (QSC), National Quantum Information Science Research Center of the U.S. Department of Energy (DOE)
  18. Gordon and Betty Moore Foundation [GBMF 9468]
  19. STC Center for Integrated Quantum Materials
  20. NSF [DMR-1231319, DMR-1904716, DMR2111812, ECCS-2052527, DOE-SC0020653, DMR-1700081, DMR-2100741, QLCI-CG-1936882, DMR-1906030]
  21. Office of Basic Energy Sciences, Materials Sciences and Engineering Division, U.S. Department of Energy (DOE) [DE-SC0012704]
  22. US-DOE [DE-SC0002613]
  23. US-NSF Cooperative agreement [DMR-1644779]
  24. state of Florida
  25. Swiss National Science Foundation (SNF ) [P2ZHP2161980, P300P2-177832]
  26. European Union Horizon 2020 research and innovation programme [881603]
  27. Spanish MICINN [MDM-2016-0618, RTI2018-094861-B-100]
  28. French ANR MAGICVALLEY [ANR-18-CE24-0007]
  29. Robert A. Welch Foundation [C-1839]
  30. EPSRC Early Career Fellowship [EP/N007131/1]
  31. European Research Council (ERC) under the European Union [865590]
  32. Royal Society International Exchanges 2019 Cost Share Program [IEC/R2/192001]
  33. German Research Foundation (DFG) [320163632 (EV 196/2)]
  34. University of Edinburgh
  35. ARCHER UK National Supercomputing Service [ecse1307, d429]
  36. Spanish Ministry of Science's grant program Europa-Excelencia [EUR2020-112238]
  37. Generalitat Valenciana [CIDEGENT/2021/005]
  38. U.S. Department of Energy (DOE) [DE-SC0002613] Funding Source: U.S. Department of Energy (DOE)
  39. Agence Nationale de la Recherche (ANR) [ANR-18-CE24-0007] Funding Source: Agence Nationale de la Recherche (ANR)
  40. European Research Council (ERC) [865590] Funding Source: European Research Council (ERC)
  41. Swiss National Science Foundation (SNF) [P300P2_177832] Funding Source: Swiss National Science Foundation (SNF)

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Research on magnetism in 2D van der Waals materials has shown exciting potential for future applications, although challenges remain. It provides important theoretical foundations and guidance for future applications.
Magnetism in two-dimensional (2D) van der Waals (vdW) materials has recently emerged as one of the most promising areas in condensed matter research, with many exciting emerging properties and significant potential for applications ranging from topological magnonics to low-power spintronics, quantum computing, and optical communications. In the brief time after their discovery, 2D magnets have blossomed into a rich area for investigation, where fundamental concepts in magnetism are challenged by the behavior of spins that can develop at the single layer limit. However, much effort is still needed in multiple fronts before 2D magnets can be routinely used for practical implementations. In this comprehensive review, prominent authors with expertise in complementary fields of 2D magnetism (i.e., synthesis, device engineering, magneto-optics, imaging, transport, mechanics, spin excitations, and theory and simulations) have joined together to provide a genome of current knowledge and a guideline for future developments in 2D magnetic materials research.

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