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Ptychographic nanoscale imaging of the magnetoelectric coupling in freestanding BiFeO<sub>3</sub>
Butcher, T. A., Phillips, N. W., Chiu, C. C., Wei, C. C., Ho, S. Z., Chen, Y. C., … Raabe, J. (2024). Ptychographic nanoscale imaging of the magnetoelectric coupling in freestanding BiFeO3. Advanced Materials, 36(23), 2311157 (6 pp.). https://doi.org/10.1002/adma.202311157
Anomalous electrons in a metallic kagome ferromagnet
Ekahana, S. A., Soh, Y., Tamai, A., Gosálbez-Martínez, D., Yao, M., Hunter, A., … Aeppli, G. (2024). Anomalous electrons in a metallic kagome ferromagnet. Nature, 627(8002), 67-72. https://doi.org/10.1038/s41586-024-07085-w
X-ray spectromicroscopy of single NiO antiferromagnetic nanoparticles
Figueroa, A. I., Moya, C., Aribó, M. X., Ara, J., García del Muro, M., Kleibert, A., … Fraile Rodríguez, A. (2024). X-ray spectromicroscopy of single NiO antiferromagnetic nanoparticles. Low Temperature Physics, 50(10), 852-861. https://doi.org/10.1063/10.0028630
X-ray spectromicroscopy of single NiO antiferromagnetic nanoparticles
Figueroa, A. I., Moya, C., Aribó, M. X., Ara, J., García del Muro, M., Kleibert, A., … Fraile Rodríguez, A. (2024). X-ray spectromicroscopy of single NiO antiferromagnetic nanoparticles. Fizika Nizkikh Temperatur = Low Temperature Physics, 50(10), 948-957.
Imaging thermally fluctuating Néel vectors in van der Waals antiferromagnet NiPS<sub>3</sub>
Lee, Y., Kim, C., Son, S., Cui, J., Park, G., Zhang, K. X., … Park, J. G. (2024). Imaging thermally fluctuating Néel vectors in van der Waals antiferromagnet NiPS3. Nano Letters, 24, 6043-6050. https://doi.org/10.1021/acs.nanolett.4c00804
The extent of platinum-induced hydrogen spillover on cerium dioxide
Beck, A., Kazazis, D., Ekinci, Y., Li, X., Müller Gubler, E. A., Kleibert, A., … van Bokhoven, J. A. (2023). The extent of platinum-induced hydrogen spillover on cerium dioxide. ACS Nano, 17(2), 1091-1099. https://doi.org/10.1021/acsnano.2c08152
Cyclohexane oxidative dehydrogenation on graphene-oxide-supported cobalt ferrite nanohybrids: effect of dynamic nature of active sites on reaction selectivity
Kadam, S. A., Sandoval, S., Bastl, Z., Simkovičová, K., Kvítek, L., Jašík, J., … Vajda, Š. (2023). Cyclohexane oxidative dehydrogenation on graphene-oxide-supported cobalt ferrite nanohybrids: effect of dynamic nature of active sites on reaction selectivity. ACS Catalysis, 13(20), 13484-13505. https://doi.org/10.1021/acscatal.3c02592
Giant magnetic anisotropy in the atomically thin van der Waals antiferromagnet FePS<sub>3</sub>
Lee, Y., Son, S., Kim, C., Kang, S., Shen, J., Kenzelmann, M., … Park, J. G. (2023). Giant magnetic anisotropy in the atomically thin van der Waals antiferromagnet FePS3. Advanced Electronic Materials, 9(2), 2200650 (8 pp.). https://doi.org/10.1002/aelm.202200650
Control of the asymmetric band structure in Mn<sub>2</sub>Au by a ferromagnetic driver layer
Lytvynenko, Y., Fedchenko, O., Chernov, S. V., Babenkov, S., Vasilyev, D., Tkach, O., … Elmers, H. J. (2023). Control of the asymmetric band structure in Mn2Au by a ferromagnetic driver layer. Physical Review B, 108(10), 104413 (9 pp.). https://doi.org/10.1103/PhysRevB.108.104413
Laser-induced creation of antiferromagnetic 180-degree domains in NiO/Pt bilayers
Meer, H., Wust, S., Schmitt, C., Herrgen, P., Fuhrmann, F., Hirtle, S., … Kläui, M. (2023). Laser-induced creation of antiferromagnetic 180-degree domains in NiO/Pt bilayers. Advanced Functional Materials, 33(21), 2213536 (6 pp.). https://doi.org/10.1002/adfm.202213536
Absence of a pressure gap and atomistic mechanism of the oxidation of pure Co nanoparticles
Vijayakumar, J., Savchenko, T. M., Bracher, D. M., Lumbeeck, G., Béché, A., Verbeeck, J., … Kleibert, A. (2023). Absence of a pressure gap and atomistic mechanism of the oxidation of pure Co nanoparticles. Nature Communications, 14(1), 174 (11 pp.). https://doi.org/10.1038/s41467-023-35846-0
Weak ferromagnetism in Tb(Fe<sub>0.2</sub>Mn<sub>0.2</sub>Co<sub>0.2</sub>Cr<sub>0.2</sub>Ni<sub>0.2</sub>)O<sub>3</sub> high-entropy oxide perovskite thin films
Farhan, A., Stramaglia, F., Cocconcelli, M., Kuznetsov, N., Yao, L., Kleibert, A., … van Dijken, S. (2022). Weak ferromagnetism in Tb(Fe0.2Mn0.2Co0.2Cr0.2Ni0.2)O3 high-entropy oxide perovskite thin films. Physical Review B, 106(6), L060404 (5 pp.). https://doi.org/10.1103/PhysRevB.106.L060404
Optically triggered Néel vector manipulation of a metallic antiferromagnet Mn<sub>2</sub>Au under strain
Grigorev, V., Filianina, M., Lytvynenko, Y., Sobolev, S., Pokharel, A. R., Lanz, A. P., … Demsar, J. (2022). Optically triggered Néel vector manipulation of a metallic antiferromagnet Mn2Au under strain. ACS Nano, 16(12), 20589-20597. https://doi.org/10.1021/acsnano.2c07453
Electronically tunable transparent conductive thin films for scalable integration of 2D materials with passive 2D–3D interfaces
Grünleitner, T., Henning, A., Bissolo, M., Kleibert, A., Vaz, C. A. F., Stier, A. V., … Sharp, I. D. (2022). Electronically tunable transparent conductive thin films for scalable integration of 2D materials with passive 2D–3D interfaces. Advanced Functional Materials, 32(21), 2111343 (8 pp.). https://doi.org/10.1002/adfm.202111343
Real-space imaging of phase transitions in bridged artificial kagome spin ice
Hofhuis, K., Skjærvø, S. H., Parchenko, S., Arava, H., Luo, Z., Kleibert, A., … Heyderman, L. J. (2022). Real-space imaging of phase transitions in bridged artificial kagome spin ice. Nature Physics, 18, 699-705. https://doi.org/10.1038/s41567-022-01564-5
Direct observation of a dynamical glass transition in a nanomagnetic artificial Hopfield network
Saccone, M., Caravelli, F., Hofhuis, K., Parchenko, S., Birkhölzer, Y. A., Dhuey, S., … Farhan, A. (2022). Direct observation of a dynamical glass transition in a nanomagnetic artificial Hopfield network. Nature Physics, 18, 517-521. https://doi.org/10.1038/s41567-022-01538-7
Anisotropy and domain formation in a dipolar magnetic metamaterial
Digernes, E., Strømberg, A., Vaz, C. A. F., Kleibert, A., Grepstad, J. K., & Folven, E. (2021). Anisotropy and domain formation in a dipolar magnetic metamaterial. Applied Physics Letters, 118(20), 202404 (4 pp.). https://doi.org/10.1063/5.0045450
Time-resolved XUV absorption spectroscopy and magnetic circular dichroism at the Ni &lt;em&gt;M&lt;/em&gt;&lt;sub&gt;2,3&lt;/sub&gt;-edges
Hennes, M., Rösner, B., Chardonnet, V., Chiuzbaian, G. S., Delaunay, R., Döring, F., … Jal, E. (2021). Time-resolved XUV absorption spectroscopy and magnetic circular dichroism at the Ni M2,3-edges. Applied Sciences, 11(1), 325 (11 pp.). https://doi.org/10.3390/app11010325
Geometrical frustration and competing orders in the dipolar trimerized triangular lattice
Hofhuis, K., Petersen, C. F., Saccone, M., Dhuey, S., Kleibert, A., van Dijken, S., & Farhan, A. (2021). Geometrical frustration and competing orders in the dipolar trimerized triangular lattice. Physical Review B, 104(1), 014409 (7 pp.). https://doi.org/10.1103/PhysRevB.104.014409
Magnetism of individual nanoparticles probed by x-ray photoemission electron microscopy
Kleibert, A. (2021). Magnetism of individual nanoparticles probed by x-ray photoemission electron microscopy. In D. Peddis, S. Laureti, & D. Fiorani (Eds.), Springer series in materials science: Vol. 308. New trends in nanoparticle magnetism (pp. 219-239). https://doi.org/10.1007/978-3-030-60473-8_9
 

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