Anna Kallistova scite author profile

Halide double perovskites [A2MIMIIIX6] are an important class of materials that have garnered substantial interest as non‐toxic alternatives to conventional lead iodide perovskites for optoelectronic applications. While numerous studies have examined chloride and bromide double perovskites, reports of iodide double perovskites are rare, and their definitive structural characterization has not been reported. Predictive models have aided us here in the synthesis and characterization of five iodide double perovskites of general formula Cs2NaLnI6 (Ln=Ce, Nd, Gd, Tb, Dy). The complete crystal structures, structural phase transitions, optical, photoluminescent, and magnetic properties of these compounds are reported.

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Synthesis and structural properties of a 2D Zn(ii) dodecahydroxy-closo-dodecaborate coordination polymer

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Becwar

Jung

et al. 2022

Dalton Trans.

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Electrochemical Cycling of Redox-Active Boron Cluster-Based Materials in the Solid State

et al. 2023

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This work demonstrates the first successful electrochemical cycling of a redox-active boron cluster-based material in the solid state. Specifically, we designed and synthesized an ether-functionalized dodecaborate cluster, B12(OCH3)12, which is the smallest redox-active building block in the B12(OR)12 family. This species can reversibly access four oxidation states in solution, ranging from a dianion to a radical cation. We show that a chemically isolated and characterized neutral [B12(OCH3)12]0 cluster can be utilized as a cathode active material in a PEO-based rechargeable all-solid-state cell with a lithium metal anode. The cell exhibits an impressive active material utilization close to 95% at C/20 rate, a high Coulombic efficiency of 96%, and reversibility, with only 4% capacity fade after 16 days of cycling. This work represents a conceptual departure in the development of redox-active components for electrochemical storage and serves as an entry point to a broader class of borane-based materials.

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Electrochemical Control of Magnetism on the Breathing Kagome Network of Li_xScMo₃O₈

et al. 2023

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Controlling properties within a given functional inorganic material structure type is often accomplished through tuning the electronic occupation, which is in turn dictated by the elemental composition determined at the time of material preparation. We employ electrochemical control of the lithium content, with associated electronic occupancy control, to vary the magnetic properties of a material where a kagome-derived network of Mo3 triangles carry the spin. In this case, Li is electrochemically inserted into LiScMo3O8, a layered compound containing a breathing Mo kagome network. Up to two additional Li can be inserted into LiScMo3O8, transforming it into Li3ScMo3O8. Li2ScMo3O8 prepared by electrochemical lithiation is compared to the quantum spin liquid candidate compound Li2ScMo3O8 prepared through high-temperature solid-state methods, which has a slightly different structural stacking sequence but a similar kagome-derived network. Magnetic measurements are supported by first-principles calculations, showing that electrons remain localized on the Mo clusters throughout the doping series. As x is varied in Li x ScMo3O8, the measurements and calculations reveal the evolution from a diamagnetic band insulator at x = 1 to a geometrically frustrated magnet at x = 2, back to a diamagnetic insulator at x = 3. These results indicate a likelihood of strong coupling between the degree of Li disorder and charge/magnetic ordering over the Mo3 clusters.

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Electrochemical Cycling of Redox-Active Boron Cluster-Based Materials in the Solid State

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Irshad

Kallistova

et al. 2023

Preprint

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This work demonstrates the first successful electrochemical cycling of a redox-active boron cluster-based material in the solid state. Specifically, we designed and synthesized an ether-functionalized dodecaborate cluster, B12(OCH3)12, which is the smallest redox-active building block in the B12(OR)12 family. This species can reversibly access four oxidation states in solution, ranging from a dianion to a radical cation. We show that a chemically isolated and characterized neutral [B12(OCH3)12]0 cluster can be utilized as a cathode active material in a PEO-based rechargeable all-solid-state cell with a lithium metal anode. The cell exhibits an impressive active material utilization close to 95% at C/20 rate, a high Coulombic efficiency of 96%, and excellent reversibility, with only 4% capacity fade after 16 days of cycling. This work represents a conceptual departure in the development of redox-active components for electrochemical storage and serves as an entry point to a broader class of borane-based materials.

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Anna Kallistova

Elusive Double Perovskite Iodides: Structural, Optical, and Magnetic Properties

Synthesis and structural properties of a 2D Zn(ii) dodecahydroxy-closo-dodecaborate coordination polymer

Electrochemical Cycling of Redox-Active Boron Cluster-Based Materials in the Solid State

Electrochemical Control of Magnetism on the Breathing Kagome Network of Li_xScMo₃O₈

Electrochemical Cycling of Redox-Active Boron Cluster-Based Materials in the Solid State

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Anna Kallistova

Elusive Double Perovskite Iodides: Structural, Optical, and Magnetic Properties

Synthesis and structural properties of a 2D Zn(ii) dodecahydroxy-closo-dodecaborate coordination polymer

Electrochemical Cycling of Redox-Active Boron Cluster-Based Materials in the Solid State

Electrochemical Control of Magnetism on the Breathing Kagome Network of LixScMo3O8

Electrochemical Cycling of Redox-Active Boron Cluster-Based Materials in the Solid State

Contact Info

Product

Resources

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Electrochemical Control of Magnetism on the Breathing Kagome Network of Li_xScMo₃O₈