Correlation between Electronic Configuration and Magnetic Stability in Dysprosium Single Atom Magnets

Donati, Fabio; Pivetta, Marina; Wolf, Christoph; Singha, Aparajita; Wäckerlin, Christian; Baltić, Romana; Fernandes, Edgar; Groot, Jean Guillaume De; Ahmed, Safa Lamia; Persichetti, Luca; Nistor, Corneliu; Dreiser, Jan; Barla, A.; Gambardella, Pietro; Brune, Harald; Rusponi, Stefano

doi:10.1021/acs.nanolett.1c02744

Cited by 24 publications

(27 citation statements)

References 57 publications

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“…Very similar results are obtained for Dy adsorbed on the (001) surface of pure (i.e., without Nb doping) STO (see Supporting Information for a comparison between pure and Nb-doped STO), indicating that the extra conductivity achieved through Nb doping does not shorten the magnetization relaxation times. Dy/STO(001) can therefore be classified as a SAM, but unlike the previously reported cases of RE SAMs, 14,21,22,50 all showing strong out-of-plane magnetic anisotropy, here the Dy atoms have in-plane magnetic anisotropy. Contrary to Dy, Ho single atoms show purely paramagnetic behavior down to T = 2.5 K, despite a magnetic anisotropy similar to that of Dy (see Supporting Information for the Ho/STO magnetic properties).…”

Section: Resultscontrasting

confidence: 57%

Slow Magnetic Relaxation of Dy Adatoms with In-Plane Magnetic Anisotropy on a Two-Dimensional Electron Gas

et al. 2022

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We report on the magnetic properties of Dy atoms adsorbed on the (001) surface of SrTiO 3 . X-ray magnetic circular dichroism reveals slow relaxation of the Dy magnetization on a time scale of about 800 s at 2.5 K, unusually associated with an easy-plane magnetic anisotropy. We attribute these properties to Dy atoms occupying hollow adsorption sites on the TiO 2 -terminated surface. Conversely, Ho atoms adsorbed on the same surface show paramagnetic behavior down to 2.5 K. With the help of atomic multiplet simulations and first-principles calculations, we establish that Dy populates also the top-O and bridge sites on the coexisting SrO-terminated surface. A simple magnetization relaxation model predicts these two sites to have an even longer magnetization lifetime than the hollow site. Moreover, the adsorption of Dy on the insulating SrTiO 3 crystal leads, regardless of the surface termination, to the formation of a spin-polarized two-dimensional electron gas of Ti 3d xy character, together with an antiferromagnetic Dy–Ti coupling. Our findings support the feasibility of tuning the magnetic properties of the rare-earth atoms by acting on the substrate electronic gas with electric fields.

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Section: Resultscontrasting

confidence: 57%

Slow Magnetic Relaxation of Dy Adatoms with In-Plane Magnetic Anisotropy on a Two-Dimensional Electron Gas

et al. 2022

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“…Inversely, the equatorial CF is preferable for Er(III) ion where two representative complexes, that is, [Dy(Cp ttt ) 2 ] + , and Er[N(SiMe 3 ) 2 ] 3 , are provided as an illustrative example. Apart from the molecular origin, the assembling of individual lanthanide atoms on surfaces for single-atom magnetic recording has also been developed in recent years, representing the ultimate limit of high-density storage devices. − …”

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confidence: 99%

Emerging Trends on Designing High-Performance Dysprosium(III) Single-Molecule Magnets

Gebretsadik

et al. 2022

ACS Materials Lett.

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The present prospect of single-molecule magnets (SMMs) research is more appealing after the detection of magnetic remanence above liquid-nitrogen temperatures. From the current state-of-the-art of the well matured molecular magnetism perspective, in this Review, we discuss the recent emerging trends on the key synthetic strategies employed to achieve exotic magnetic properties by providing representative seminal reports on high-performance Dy(III)–SMMs (HP-Dy–SMMs). Special emphasis has been given to monomeric HP-Dy–SMMs realized via crystal field (CF), predominant bond, and organometallic approaches. In addition, recent stimulating reports on endometallofullerenes (EMFs) and radical-bridged systems possessing strong magnetic coupling are encompassed. Likewise, the role of spin-vibration coupling in the magnetic relaxation of Dy(III) MMs is also highlighted. To this end, we believe more demanding theoretical studies are still anticipated to forecast the promising molecule with magnetization blocking at a practical temperature.

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“…100 Coexistence of Dy atoms and Dy + ions with the ratio depending on the MgO thickness was recently demonstrated for Dy deposited on MgO|Ag(100). 104 Such situations are less documented for adsorbates on h-BN|metal substrates, 105 but not unimaginable either. For instance, C 60 retains its charge state on h-BN|Ni(111) at low temperature, but the population of its LUMO is increased by 0.4 electrons at room temperature.…”

Section: Computational Modelingmentioning

confidence: 99%

“…The persistence of the afm state on h-BN| Rh (111) and MgO|Ag(100) could serve as an indication that the charge transfer from the substrate is not the reason for the unexpected magnetic behavior of Tb 2 @C 79 N. However, the charge transfer hypothesis still cannot be fully excluded by these data because there are examples of the electron transfer between Ag and adsorbate on MgO|Ag(100) substrates. [98][99][100][101][102][103][104] For instance, pentacene molecules acquire one electron when deposited onto MgO(2 ML)|Ag (100). 99 Variation of the MgO layer thickness and work-function resulted in the co-existence of neutral and charged pentacene molecules, and signatures of the charge transfer were observed up to the MgO thickness of 16 ML.…”

Section: X-ray Absorption Studies Of Tb 2 @C 79 N Filmsmentioning

confidence: 99%

Metamagnetic transition and a loss of magnetic hysteresis caused by electron trapping in monolayers of single-molecule magnet Tb₂@C₇₉N

et al. 2022

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Correlation between Electronic Configuration and Magnetic Stability in Dysprosium Single Atom Magnets

Cited by 24 publications

References 57 publications

Slow Magnetic Relaxation of Dy Adatoms with In-Plane Magnetic Anisotropy on a Two-Dimensional Electron Gas

Slow Magnetic Relaxation of Dy Adatoms with In-Plane Magnetic Anisotropy on a Two-Dimensional Electron Gas

Emerging Trends on Designing High-Performance Dysprosium(III) Single-Molecule Magnets

Metamagnetic transition and a loss of magnetic hysteresis caused by electron trapping in monolayers of single-molecule magnet Tb₂@C₇₉N

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Correlation between Electronic Configuration and Magnetic Stability in Dysprosium Single Atom Magnets

Cited by 24 publications

References 57 publications

Slow Magnetic Relaxation of Dy Adatoms with In-Plane Magnetic Anisotropy on a Two-Dimensional Electron Gas

Slow Magnetic Relaxation of Dy Adatoms with In-Plane Magnetic Anisotropy on a Two-Dimensional Electron Gas

Emerging Trends on Designing High-Performance Dysprosium(III) Single-Molecule Magnets

Metamagnetic transition and a loss of magnetic hysteresis caused by electron trapping in monolayers of single-molecule magnet Tb2@C79N

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Metamagnetic transition and a loss of magnetic hysteresis caused by electron trapping in monolayers of single-molecule magnet Tb₂@C₇₉N