Anna S. Manvell scite author profile

The solution self-assembly of trans-{EuI2} nodes and ditopic pyrazine or 4,4'-bipyridine leads to isoreticular 2D frameworks featuring the rare elongated triangular Archimedean tessellation pattern. The topology and the presence of intra-layer Eu(II)-Eu(II) antiferromagnetic interactions provide the prerequisites for geometrical spin frustration, which, due to the spin ground state degeneracy, is key for exotic magnetic phenomena such as enhanced magnetic refrigeration.

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Tunable valence tautomerism in lanthanide-organic alloys

Dunstan

Manvell

Yutronkie

et al. 2023

Preprint

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The electronic structures of the lanthanide (Ln) ions are inimitable and key to advanced materials and technologies. The trivalent ions are ubiquitous and dwarf the use of di- and tetra-valent analogues, which, however, possess vastly different optical and magnetic properties. Hence, alteration of the valence electron count by external stimuli would lead to dramatic changes in materials properties. Compounds exhibiting a temperature-induced, complete Ln(III) ⇄ Ln(II) switch, referred to as a valence tautomeric (VT) transition, are virtually absent. Herein, we present an abrupt and hysteretic VT transition in a lanthanide-based coordination polymer, SmI2(pyrazine)3, driven by the interconversion of closed-shell Sm(II)-pyrazine(0) and paramagnetic Sm(III)-pyrazine(●–) redox pairs. Alloying SmI2(pyrazine)3 with Yb(II) yields isomorphous Sm(1–x)Yb(x)I2(pyrazine)3 solid solutions with VT transition critical temperatures ranging widely from 200 K to ~50 K at ambient pressure. These findings demonstrate a simple strategy to realize thermally switchable magnetic materials with chemically tunable transition temperatures.

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Anna S. Manvell

The magnetic properties of MAl₄(OH)₁₂SO₄·3H₂O with M = Co²⁺, Ni²⁺, and Cu²⁺determined by a combined experimental and computational approach

Towards frustration in Eu(ii) Archimedean tessellations

Towards Frustration in Eu(II) Archimedean Tessellations

Tunable valence tautomerism in lanthanide-organic alloys

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Anna S. Manvell

The magnetic properties of MAl4(OH)12SO4·3H2O with M = Co2+, Ni2+, and Cu2+determined by a combined experimental and computational approach

Towards frustration in Eu(ii) Archimedean tessellations

Towards Frustration in Eu(II) Archimedean Tessellations

Tunable valence tautomerism in lanthanide-organic alloys

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Product

Resources

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The magnetic properties of MAl₄(OH)₁₂SO₄·3H₂O with M = Co²⁺, Ni²⁺, and Cu²⁺determined by a combined experimental and computational approach