N. Biškup scite author profile

We present a new member of the multiferroic oxides, Lu2MnCoO6, which we have investigated using Xray diffraction, neutron diffraction, specific heat, magnetization, electric polarization, and dielectric constant measurements. This material possesses a net electric polarization strongly coupled to a net magnetization below 35 K, despite the antiferromagnetic ordering of the S = 3/2 Mn 4+ and Co 2+ spins in an ↑↑↓↓ configuration along the c-direction. We discuss the magnetic order in terms of a condensation of domain boundaries between ↑↑ and ↓↓ ferromagnetic domains, with each domain boundary producing an electric polarization due to spatial inversion symmetry breaking. In an applied magnetic field the domain boundaries slide, controlling the size of the magnetization, electric polarization, and magnetoelectric coupling.

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Electrochemical Intercalation of Calcium and Magnesium in TiS₂: Fundamental Studies Related to Multivalent Battery Applications

Tchitchekova

et al. 2018

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A comparative study of the electrochemical intercalation of Ca2+ and Mg2+ in layered TiS2 using alkylcarbonate-based electrolytes is reported, and for the first time, reversible electrochemical Ca2+ insertion is proved in this compound using both X-ray diffraction and differential absorption X-ray tomography at the Ca L2 edge. Different new phases are formed upon M2+ insertion that are structurally characterized, their amount and composition being dependent on M2+ and the experimental conditions. The first phase formed upon reduction is found to be the result of an ion-solvated intercalation mechanism, with solvent molecule(s) being cointercalated with the M2+ cation. Upon further reduction, new non-cointercalated calcium-containing phases seem to form at the expense of unreacted TiS2. The calculated activation energy barriers for Ca2+ migration in TiS2 (0.75 eV) are lower than those previously reported for Mg (1.14 eV) at the dilute limit and within the CdI2 structural type. DFT results indicate that the expansion of the interlayer space lowers the energy barrier and favors a different pathway for Ca2+ migration.

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Long-range ferromagnetic order inLaCoO3−δepitaxial films due to the interplay of epitaxial strain and oxygen vacancy ordering

et al. 2015

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N. Biškup

Insulating FerromagneticLaCoO3−δFilms: A Phase Induced by Ordering of Oxygen Vacancies

Multiferroic behavior in the double-perovskite Lu2MnCoO6

Electrochemical Intercalation of Calcium and Magnesium in TiS₂: Fundamental Studies Related to Multivalent Battery Applications

Long-range ferromagnetic order inLaCoO3−δepitaxial films due to the interplay of epitaxial strain and oxygen vacancy ordering

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N. Biškup

Insulating FerromagneticLaCoO3−δFilms: A Phase Induced by Ordering of Oxygen Vacancies

Multiferroic behavior in the double-perovskite Lu2MnCoO6

Electrochemical Intercalation of Calcium and Magnesium in TiS2: Fundamental Studies Related to Multivalent Battery Applications

Long-range ferromagnetic order inLaCoO3−δepitaxial films due to the interplay of epitaxial strain and oxygen vacancy ordering

Contact Info

Product

Resources

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Electrochemical Intercalation of Calcium and Magnesium in TiS₂: Fundamental Studies Related to Multivalent Battery Applications