Giant Hysteresis of Single‐Molecule Magnets Adsorbed on a Nonmagnetic Insulator

Wäckerlin, Christian; Donati, Fabio; Singha, Aparajita; Baltić, Romana; Rusponi, Stefano; Diller, Katharina; Patthey, F.; Pivetta, Marina; Lan, Yanhua; Klyatskaya, Svetlana; Rüben, Mario; Brune, Harald; Dreiser, Jan

doi:10.1002/adma.201506305

Cited by 157 publications

(216 citation statements)

References 32 publications

Supporting

Mentioning

194

Contrasting

Order By: Relevance

“…In addition, it has been demonstrated that the divalent state of Tb is highly unfavorable even for freestanding dimers, i.e., a single metallic bond is sufficient to trigger its trivalent configuration [48]. Hence, a Tb atom on graphene takes on the most common trivalent configuration that is also observed for TbPc 2 molecular magnets [43,49].…”

Section: Trivalent Re Atoms On Graphene/ir(111)mentioning

confidence: 97%

See 1 more Smart Citation

Magnetic properties of single rare-earth atoms on graphene/Ir(111)

et al. 2018

Self Cite

View full text Add to dashboard Cite

We employed x-ray absorption spectroscopy and x-ray magnetic circular dichroism to study the magnetic properties of single rare-earth (RE) atoms (Nd, Tb, Dy, Ho, and Er) adsorbed on the graphene/Ir(111) surface. The interaction of RE atoms with graphene results for Tb in a trivalent state with 4f n−1 occupancy, and in a divalent state with 4f n occupancy for all other studied RE atoms (n corresponds to the 4f occupancy of free atoms). Among the studied RE on graphene/Ir(111), Dy is the only one that shows magnetic hysteresis and remanence at 2.5 K. By comparing measured spectra and magnetization curves with multiplet calculations, we determine the energy diagram of the magnetic states and show for each element the magnetization reversal process that determines the timescale of its magnetic bistability.

show abstract

Section: Trivalent Re Atoms On Graphene/ir(111)mentioning

confidence: 97%

“…The magnetic relaxation time has been reported to depend on x-ray photon flux [17,42,43]. This effect is due to the generation of secondary electrons that destabilize the magnetic quantum states.…”

Section: Flux Dependence Of Dy Magnetization Curvesmentioning

confidence: 99%

Magnetic properties of single rare-earth atoms on graphene/Ir(111)

et al. 2018

Self Cite

View full text Add to dashboard Cite

show abstract

“…Ab-initio models have been routinely employed to predict which ligand environments allow for the best optimisation of the spin relaxation times [49][50][51], in view of fabricating molecular devices that could store and process information above cryogenic temperatures. Recent work has made significant gains in this direction, with reports of slow magnetic relaxation at temperatures as high as 100 K and magnetic blocking at 5-30 K in Dy- [32][33][34][35][36], Er- [52,53] and Tb- [54,55] SIMs. Other notable achievements are the observation of Rabi oscillations in f-element single molecules [56][57][58][59], and the detection of 'atomic clock transitions' in a Ho-SIM system [60].…”

Section: Introductionmentioning

confidence: 99%

Molecular single-ion magnets based on lanthanides and actinides: Design considerations and new advances in the context of quantum technologies

McAdams

Ariciu

Kostopoulos

et al. 2017

Coordination Chemistry Reviews

309

226

View full text Add to dashboard Cite

Over the past fifteen years or so, the study of f-element single-ion magnets (f-SIMs) has gone from being a sub-discipline of molecular magnetism to an established field of research in its own right. The major driving force has been their exceptional promise in applications such as ultra-high-density data storage, spintronics, and quantum information processing (QIP). Recent demonstrations that f-SIMs preserve their intrinsic magnetic properties even when deposited onto substrates have reinforced the interests in the field.Here, we review the current state of the field of lanthanide and actinide f-SIMs; discuss the principal factors affecting the magnetic and quantum properties of such single-ion magnets; review the latest chemical approaches in designing f-SIMs with superior properties; and highlight new trends in single molecule magnetism, including using f-SIMs as potential spin qubits for quantum computers.

show abstract

“…In addition, the XMCD sum rules [38,39] and multiplet analysis can be used to estimate the corresponding J z values. We chose late lanthanides for their large magnetic moments coming from the parallel alignment of L and S. Additionally, they exhibit larger magnetic anisotropy and have been more intensively studied as model systems for atomic magnetic memories in single ion [40][41][42][43] and single atom magnets [17,18]. Among the series of late lanthanides, we investigated Dy, Ho, Er, and Tm as they have been found both in divalent and trivalent states in bulk compounds [44], hence, they represent ideal candidates to explore the interplay between surface binding, 4f occupancy, and strength of the crystal field.…”

Section: Introductionmentioning

confidence: 99%

4f occupancy and magnetism of rare-earth atoms adsorbed on metal substrates

et al. 2017

Self Cite

View full text Add to dashboard Cite

We report x-ray absorption spectroscopy and x-ray magnetic circular dichroism measurements as well as multiplet calculations for Dy, Ho, Er, and Tm atoms adsorbed on Pt(111), Cu(111), Ag(100), and Ag(111). In the gas phase, all four elements are divalent and we label their 4f occupancy as 4f n . Upon surface adsorption, and depending on the substrate, the atoms either remain in that state or become trivalent with 4f n−1 configuration. The trivalent state is realized when the sum of the atomic correction energies (4f →5d promotion energy E f d + intershell coupling energy δE c ) is low and the surface binding energy is large. The latter correlates with a high substrate density of states at the Fermi level. The magnetocrystalline anisotropy of trivalent RE atoms is larger than the one of divalent RE atoms. We ascribe this to the significantly smaller covalent radius of the trivalent state compared to the divalent one for a given RE element. For a given valency of the RE atom, the anisotropy is determined by the overlap between the spd states of the RE and the d states of the surface. For all investigated systems, the magnetization curves recorded at 2.5 K show absence of hysteresis indicating that magnetic relaxation is faster than about 10 s.

show abstract

Giant Hysteresis of Single‐Molecule Magnets Adsorbed on a Nonmagnetic Insulator

Cited by 157 publications

References 32 publications

Magnetic properties of single rare-earth atoms on graphene/Ir(111)

Magnetic properties of single rare-earth atoms on graphene/Ir(111)

Molecular single-ion magnets based on lanthanides and actinides: Design considerations and new advances in the context of quantum technologies

4f occupancy and magnetism of rare-earth atoms adsorbed on metal substrates

Contact Info

Product

Resources

About