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Autori principali: Neziri, Egzona Isufi, Hensky, Céline, Le, Hien Quy, Ochoa, Diego Radillo, Cebrat, Aleksandra, Parschau, Manfred, Ernst, Karl-Heinz, Wäckerlin, Christian
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2408.16369
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author Neziri, Egzona Isufi
Hensky, Céline
Le, Hien Quy
Ochoa, Diego Radillo
Cebrat, Aleksandra
Parschau, Manfred
Ernst, Karl-Heinz
Wäckerlin, Christian
author_facet Neziri, Egzona Isufi
Hensky, Céline
Le, Hien Quy
Ochoa, Diego Radillo
Cebrat, Aleksandra
Parschau, Manfred
Ernst, Karl-Heinz
Wäckerlin, Christian
contents Driven by applications in information technology, the search for new materials with stable, long-range magnetic ordering continues. Metalorganic magnets, involving the coordination of metal atoms with specific organic ligands, are a focus of intense research. These magnets offer customizable properties through synthetic adjustments to ligands or coordination chemistry. Here the synthesis, structural characterization, and magnetic properties of the 2D cyanocarbon magnet NiTCNE is reported. 2D-crystalline domains of this single-layered metalorganic network reach sizes exceeding 30 nanometers through co-deposition of the ligand TCNE (tetracyanoethylene) and Ni atoms on an Au(111) surface under ultrahigh vacuum conditions. Non-contact atomic force microscopy visualizes the structure with atomic resolution. X-ray magnetic circular dichroism establishes the 2D NiTCNE as a ferromagnet, with a very high magnetic remanence, a coercive field of around 1 tesla and a Curie temperature between 10 and 20 kelvin. As metalorganic chemistry opens a large variety of routes of synthesis, we anticipate that this materials research paves the way to new magnetic nanomaterials for spintronics applications.
format Preprint
id arxiv_https___arxiv_org_abs_2408_16369
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Two-dimensional metalorganic ferromagnets
Neziri, Egzona Isufi
Hensky, Céline
Le, Hien Quy
Ochoa, Diego Radillo
Cebrat, Aleksandra
Parschau, Manfred
Ernst, Karl-Heinz
Wäckerlin, Christian
Materials Science
Mesoscale and Nanoscale Physics
Driven by applications in information technology, the search for new materials with stable, long-range magnetic ordering continues. Metalorganic magnets, involving the coordination of metal atoms with specific organic ligands, are a focus of intense research. These magnets offer customizable properties through synthetic adjustments to ligands or coordination chemistry. Here the synthesis, structural characterization, and magnetic properties of the 2D cyanocarbon magnet NiTCNE is reported. 2D-crystalline domains of this single-layered metalorganic network reach sizes exceeding 30 nanometers through co-deposition of the ligand TCNE (tetracyanoethylene) and Ni atoms on an Au(111) surface under ultrahigh vacuum conditions. Non-contact atomic force microscopy visualizes the structure with atomic resolution. X-ray magnetic circular dichroism establishes the 2D NiTCNE as a ferromagnet, with a very high magnetic remanence, a coercive field of around 1 tesla and a Curie temperature between 10 and 20 kelvin. As metalorganic chemistry opens a large variety of routes of synthesis, we anticipate that this materials research paves the way to new magnetic nanomaterials for spintronics applications.
title Two-dimensional metalorganic ferromagnets
topic Materials Science
Mesoscale and Nanoscale Physics
url https://arxiv.org/abs/2408.16369