Bis‐Cyclooctatetraenyl Thulium(II): Highly Reducing Lanthanide Sandwich Single‐Molecule Magnets

Moutet, Jean‐Claude; Schleinitz, Jules; Droitte, Léo La; Tricoire, Maxime; Pointillart, Fabrice; Gendron, Frédéric; Simler, Thomas; Clavaguéra, Carine; Guennic, Boris Le; Cador, Olivier; Nocton, Grégory

doi:10.1002/ange.202015428

Cited by 13 publications

(7 citation statements)

References 70 publications

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“…Due to their strong localization, their 4f electrons generally show very limited degree of covalency and preserve an atomic-like character with well-defined integer orbital occupation. Depending on the ligand environment, lanthanide complexes and surface-adsorbed atoms and can be mostly found in either atom-like (4f n ) 4,[11][12][13][14][15] or bulk-like configuration (4f n-1 ) [1][2][3][16][17][18][19][20][21][22][23] . Not only does the 4f occupation determine the magnetic moment and stability of the atom, but it also has an impact on the population of the 6s5d valence orbitals 15,22,24,25 determining the behavior in spin transport measurements 8,[26][27][28] .…”

Section: Main Textmentioning

confidence: 99%

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

et al. 2021

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Single atom magnets offer the possibility of magnetic information storage in the most fundamental unit of matter. Identifying the parameters that control the stability of their magnetic states is crucial to design novel quantum magnets with tailored properties. Here we use X-ray absorption spectroscopy to show that the electronic configuration of dysprosium atoms on MgO(100) thin films can be tuned by the proximity of the metal Ag(100) substrate onto which the MgO films are grown. Increasing the MgO thickness from 2.5 to 9 monolayers induces a change in the dysprosium electronic configuration from 4f 9 to 4f 10 . Hysteresis loops indicate long magnetic lifetimes for both configurations, however, with a different field-dependent magnetic stability. Combining these measurements with scanning tunneling microscopy, density functional theory, and multiplet calculations unveils the role of the adsorption site and charge transfer to the substrate in determining the stability of quantum states in dysprosium single atom magnets.

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Section: Main Textmentioning

confidence: 99%

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

et al. 2021

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“…Similar to the above-described trivalent compounds, these are commonly isolated as monomeric species where the potassium ions are saturated by Lewis-base-ligands. [23] The inner potassium ions are each bound to one COT 1,4-SiiPr3 ligand in the expected h 8coordination mode (K1-Ct1 = 2.3000( 5) and connected to the neighboring K 2 [Sm II (COT 1,4-SiiPr3 ) 2 ] fragment via a h…”

Section: Angewandte Chemiementioning

confidence: 99%

The Archetypal Homoleptic Lanthanide Quadruple‐Decker—Synthesis, Mechanistic Studies, and Quantum Chemical Investigations

et al. 2021

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Reduction of [Sm III (COT 1,4-SiiPr3 )(BH 4 )(thf)] (COT 1,4-SiiPr3 = 1,4-( i Pr 3 Si) 3 C 8 H 6 ) with KC 8 resulted in [Sm III/II/III (COT 1,4-SiiPr3 ) 4 ], the first example of a homoleptic lanthanide quadruple-decker. As indicated by an analysis of the bond metrics in the solid-state, the inner Sm ion is present in the divalent oxidation state, while the outer ones are trivalent. This observation could be confirmed by quantum chemical calculations. Mechanistic studies revealed not only insight into possible formation pathways of [Sm III/II/III (COT 1,4-SiiPr3 ) 4 ] but also resulted in the transformation to other mixed metal sandwich complexes with unique structural properties. These are the 1D-polymeric chain structured [KSm III (COT 1,4-SiiPr3 )] n and the hexametallic species [(tol)K(COT 1,4-SiiPr3 )Sm II (COT 1,4- SiiPr3)K] 2 which were initially envisioned as possible building blocks as part of different retrosynthetically guided pathways that we developed.

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“…[22][23] Our group has extended this strategy for the development of SMMs of divalent Tm, a f 13 metal ion, with the large aromatic Cot ligand. 24 Another important finding is the report of intermediate valent states 25 occurring in these complexes, mostly for Yb and Ce, including the iconic Yb(Cp)3 26 and Ce(Cot)2. 27 In these compounds, the net valency of the metal center is not integer but intermediate and the ground and excited states can be described as a linear combination of several configurations, in which the valence is different.…”

Section: Introductionmentioning

confidence: 96%

Synthesis and Structures of Tris(cyclononatetraenyl) Rare-Earth Complexes [Ln(C₉H₉)₃] (Ln = Y, Gd, Tb, Dy, Ho, Er, Tm)

et al. 2022

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The article reports the synthesis and structural characterization of a series of Ln(C9H9)3 complexes with the cyclononatetraenyl (Cnt, C9H9) ligand (Ln = Y, Gd, Tb, Dy, Ho, Er, Tm). The Yb and Sm complexes were not obtained and the reaction of the potassium salt of the Cnt ligand with trivalent halides salts of the corresponding metals led to the known bis-Cnt sandwich compounds, Ln(C9H9)2. The X-ray diffraction studies on the trivalent complexes show that the Cnt ligand is significantly bent in order to accommodate the large size of the ligand while keeping the aromaticity. When the size of the lanthanide ion decreases, the ligand does not switch away but swings over the metal ion in order to maximize the electrostatic interactions. The 1 H NMR and the UV-Visible spectroscopies were recorded as well as the solid-state magnetism. The UV-Visible spectroscopy highlights a remarkable charge-transfer band in the Tm complex while ligand-based transitions are principally observed with all other metal ions. The magnetic behavior of the series agrees with trivalent lanthanides ions and the computations at the CASSCF level confirm the trivalent electronic structure.

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Bis‐Cyclooctatetraenyl Thulium(II): Highly Reducing Lanthanide Sandwich Single‐Molecule Magnets

Cited by 13 publications

References 70 publications

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

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

The Archetypal Homoleptic Lanthanide Quadruple‐Decker—Synthesis, Mechanistic Studies, and Quantum Chemical Investigations

Synthesis and Structures of Tris(cyclononatetraenyl) Rare-Earth Complexes [Ln(C₉H₉)₃] (Ln = Y, Gd, Tb, Dy, Ho, Er, Tm)

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Bis‐Cyclooctatetraenyl Thulium(II): Highly Reducing Lanthanide Sandwich Single‐Molecule Magnets

Cited by 13 publications

References 70 publications

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

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

The Archetypal Homoleptic Lanthanide Quadruple‐Decker—Synthesis, Mechanistic Studies, and Quantum Chemical Investigations

Synthesis and Structures of Tris(cyclononatetraenyl) Rare-Earth Complexes [Ln(C9H9)3] (Ln = Y, Gd, Tb, Dy, Ho, Er, Tm)

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Synthesis and Structures of Tris(cyclononatetraenyl) Rare-Earth Complexes [Ln(C₉H₉)₃] (Ln = Y, Gd, Tb, Dy, Ho, Er, Tm)