Iron-rich talc as air-stable platform for magnetic two-dimensional materials

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Standard

Iron-rich talc as air-stable platform for magnetic two-dimensional materials. / Matkovic, Aleksandar; Ludescher, Lukas; Peil, Oleg E. et al.
in: npj 2D materials and applications, Jahrgang 2021, Nr. 5, 94, 21.12.2021.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

Harvard

Matkovic, A, Ludescher, L, Peil, OE, Sharma, A, Gradwohl, K-P, Kratzer, M, Zimmermann, M, Genser, J, Fisslthaler, E, Knez, D, Gammer, C, Lugstein, A, Bakker, RJ, Romaner, L, Zahn, DRT, Hofer, F, Salvan, G, Raith, J & Teichert, C 2021, 'Iron-rich talc as air-stable platform for magnetic two-dimensional materials', npj 2D materials and applications, Jg. 2021, Nr. 5, 94. https://doi.org/10.1038/s41699-021-00276-3

APA

Matkovic, A., Ludescher, L., Peil, O. E., Sharma, A., Gradwohl, K.-P., Kratzer, M., Zimmermann, M., Genser, J., Fisslthaler, E., Knez, D., Gammer, C., Lugstein, A., Bakker, R. J., Romaner, L., Zahn, D. R. T., Hofer, F., Salvan, G., Raith, J., & Teichert, C. (2021). Iron-rich talc as air-stable platform for magnetic two-dimensional materials. npj 2D materials and applications, 2021(5), Artikel 94. Vorzeitige Online-Publikation. https://doi.org/10.1038/s41699-021-00276-3

Vancouver

Matkovic A, Ludescher L, Peil OE, Sharma A, Gradwohl KP, Kratzer M et al. Iron-rich talc as air-stable platform for magnetic two-dimensional materials. npj 2D materials and applications. 2021 Dez 21;2021(5):94. Epub 2021 Dez 21. doi: 10.1038/s41699-021-00276-3

Author

Matkovic, Aleksandar ; Ludescher, Lukas ; Peil, Oleg E. et al. / Iron-rich talc as air-stable platform for magnetic two-dimensional materials. in: npj 2D materials and applications. 2021 ; Jahrgang 2021, Nr. 5.

Bibtex - Download

@article{09819fd642474d7fbded506478f2c152,
title = "Iron-rich talc as air-stable platform for magnetic two-dimensional materials",
abstract = "Intrinsically magnetic layered materials – especially monolayers – suffer from the lack of ambient stability and mostly exhibit magnetic ordering only at cryogenic temperatures. These restrains impose a great challenge for the integration of two-dimensional magnetic materials into future technologies. We propose to overcome this by exploiting phyllosilicates, such as iron-rich talc. Via combined magnetic force microscopy in applied external magnetic fields, superconducting quantum interference device magnetometry, first-principle calculations, and structural analysis, we demonstrate that incorporated iron ions in talc are in a very robust high spin state, resulting in a weak ferromagnetic behavior at room temperature. Iron-rich talc can be thinned down to a monolayer, remaining fully stable under ambient conditions, and retaining magnetic properties even in monolayers. Finally, we propose iron-rich end members of the phyllosilicates as very promising platforms for air-stable magnetic monolayers.",
author = "Aleksandar Matkovic and Lukas Ludescher and Peil, {Oleg E.} and Apoorva Sharma and Kevin-Peter Gradwohl and Markus Kratzer and Maik Zimmermann and Jakob Genser and Evelin Fisslthaler and Daniel Knez and Christoph Gammer and Alois Lugstein and Bakker, {Ronald Jack} and Lorenz Romaner and Zahn, {Dietrich R.T.} and Ferdinand Hofer and Gorgeta Salvan and Johann Raith and Christian Teichert",
year = "2021",
month = dec,
day = "21",
doi = "10.1038/s41699-021-00276-3",
language = "English",
volume = "2021",
journal = "npj 2D materials and applications",
issn = "2397-7132",
publisher = "Nature Publishing Group",
number = "5",

}

RIS (suitable for import to EndNote) - Download

TY - JOUR

T1 - Iron-rich talc as air-stable platform for magnetic two-dimensional materials

AU - Matkovic, Aleksandar

AU - Ludescher, Lukas

AU - Peil, Oleg E.

AU - Sharma, Apoorva

AU - Gradwohl, Kevin-Peter

AU - Kratzer, Markus

AU - Zimmermann, Maik

AU - Genser, Jakob

AU - Fisslthaler, Evelin

AU - Knez, Daniel

AU - Gammer, Christoph

AU - Lugstein, Alois

AU - Bakker, Ronald Jack

AU - Romaner, Lorenz

AU - Zahn, Dietrich R.T.

AU - Hofer, Ferdinand

AU - Salvan, Gorgeta

AU - Raith, Johann

AU - Teichert, Christian

PY - 2021/12/21

Y1 - 2021/12/21

N2 - Intrinsically magnetic layered materials – especially monolayers – suffer from the lack of ambient stability and mostly exhibit magnetic ordering only at cryogenic temperatures. These restrains impose a great challenge for the integration of two-dimensional magnetic materials into future technologies. We propose to overcome this by exploiting phyllosilicates, such as iron-rich talc. Via combined magnetic force microscopy in applied external magnetic fields, superconducting quantum interference device magnetometry, first-principle calculations, and structural analysis, we demonstrate that incorporated iron ions in talc are in a very robust high spin state, resulting in a weak ferromagnetic behavior at room temperature. Iron-rich talc can be thinned down to a monolayer, remaining fully stable under ambient conditions, and retaining magnetic properties even in monolayers. Finally, we propose iron-rich end members of the phyllosilicates as very promising platforms for air-stable magnetic monolayers.

AB - Intrinsically magnetic layered materials – especially monolayers – suffer from the lack of ambient stability and mostly exhibit magnetic ordering only at cryogenic temperatures. These restrains impose a great challenge for the integration of two-dimensional magnetic materials into future technologies. We propose to overcome this by exploiting phyllosilicates, such as iron-rich talc. Via combined magnetic force microscopy in applied external magnetic fields, superconducting quantum interference device magnetometry, first-principle calculations, and structural analysis, we demonstrate that incorporated iron ions in talc are in a very robust high spin state, resulting in a weak ferromagnetic behavior at room temperature. Iron-rich talc can be thinned down to a monolayer, remaining fully stable under ambient conditions, and retaining magnetic properties even in monolayers. Finally, we propose iron-rich end members of the phyllosilicates as very promising platforms for air-stable magnetic monolayers.

UR - http://www.scopus.com/inward/record.url?eid=2-s2.0-85121543751&partnerID=MN8TOARS

U2 - 10.1038/s41699-021-00276-3

DO - 10.1038/s41699-021-00276-3

M3 - Article

VL - 2021

JO - npj 2D materials and applications

JF - npj 2D materials and applications

SN - 2397-7132

IS - 5

M1 - 94

ER -

Beziehungsdiagramm anzeigen

360 Link

Zeitschriften in BUGL

Vom selben Autor

Mehr zeigen