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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, 2311157 (6 pp.). https://doi.org/10.1002/adma.202311157
Quantum efficiency measurement and modeling of silicon sensors optimized for soft X-ray detection
Carulla, M., Barten, R., Baruffaldi, F., Bergamaschi, A., Borghi, G., Boscardin, M., … Zhang, J. (2024). Quantum efficiency measurement and modeling of silicon sensors optimized for soft X-ray detection. Sensors, 24(3), 942 (19 pp.). https://doi.org/10.3390/s24030942
EUV-induced hydrogen desorption as a step towards large-scale silicon quantum device patterning
Constantinou, P., Stock, T. J. Z., Tseng, L. T., Kazazis, D., Muntwiler, M., Vaz, C. A. F., … Schofield, S. R. (2024). EUV-induced hydrogen desorption as a step towards large-scale silicon quantum device patterning. Nature Communications, 15(1), 694 (13 pp.). https://doi.org/10.1038/s41467-024-44790-6
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
Direct imaging of the magnetoelectric coupling in multiferroic BaTiO<sub>3</sub>/La<sub>0.9</sub>Ba<sub>0.1</sub>MnO<sub>3</sub>
Stramaglia, F., Panchal, G., Tovaglieri, L., Lichtensteiger, C., Nolting, F., & Vaz, C. A. F. (2024). Direct imaging of the magnetoelectric coupling in multiferroic BaTiO3/La0.9Ba0.1MnO3. Journal of Vacuum Science and Technology A: Vacuum, Surfaces, and Films, 42(2), 023208 (10 pp.). https://doi.org/10.1116/6.0003005
Fully magnetically polarized ultrathin La<sub>0.8</sub>Sr<sub>0.2</sub>MnO<sub>3</sub> films
Stramaglia, F., Panchal, G., Nolting, F., & Vaz, C. A. F. (2024). Fully magnetically polarized ultrathin La0.8Sr0.2MnO3 films. ACS Applied Materials and Interfaces, 16(3), 4138-4149. https://doi.org/10.1021/acsami.3c14031
Role of interdiffusion on the magnetism of ultrathin LaMnO<sub>3</sub> films
Stramaglia, F., Panchal, G., Nolting, F., & Vaz, C. A. F. (2024). Role of interdiffusion on the magnetism of ultrathin LaMnO3 films. AIP Advances, 14(2), 025021 (5 pp.). https://doi.org/10.1063/9.0000803
Determining the proximity effect-induced magnetic moment in graphene by polarized neutron reflectivity and X-ray magnetic circular dichroism
Aboljadayel, R. O. M., Kinane, C. J., Vaz, C. A. F., Love, D. M., Weatherup, R. S., Braeuninger-Weimer, P., … Langridge, S. (2023). Determining the proximity effect-induced magnetic moment in graphene by polarized neutron reflectivity and X-ray magnetic circular dichroism. ACS Applied Materials and Interfaces, 15(18), 22367-22376. https://doi.org/10.1021/acsami.2c02840
It is time to introduce the next generation of chemists to FAIR and open science
Bartels-Rausch, T., & Ammann, M. (2023). It is time to introduce the next generation of chemists to FAIR and open science. Chimia, 77(10), 694-696. https://doi.org/10.2533/chimia.2023.694
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
Characterization of iLGADs using soft X-rays
Liguori, A., Barten, R., Baruffaldi, F., Bergamaschi, A., Borghi, G., Boscardin, M., … Zhang, J. (2023). Characterization of iLGADs using soft X-rays. Journal of Instrumentation, 18(12), P12006 (15 pp.). https://doi.org/10.1088/1748-0221/18/12/P12006
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
Transient non-collinear magnetic state for all-optical magnetization switching
Parchenko, S., Frej, A., Ueda, H., Carley, R., Mercadier, L., Gerasimova, N., … Staub, U. (2023). Transient non-collinear magnetic state for all-optical magnetization switching. Advanced Science, 10(36), 2302550 (7 pp.). https://doi.org/10.1002/advs.202302550
Antiferromagnetic spin canting and magnetoelectric multipoles in <em>h</em>-YMnO<sub>3</sub>
Ramakrishnan, M., Joly, Y., Meier, Q. N., Fechner, M., Porer, M., Parchenko, S., … Staub, U. (2023). Antiferromagnetic spin canting and magnetoelectric multipoles in h-YMnO3. Physical Review Research, 5(1), 013203 (9 pp.). https://doi.org/10.1103/PhysRevResearch.5.013203
Real-space observation of ergodicity transitions in artificial spin ice
Saccone, M., Caravelli, F., Hofhuis, K., Dhuey, S., Scholl, A., Nisoli, C., & Farhan, A. (2023). Real-space observation of ergodicity transitions in artificial spin ice. Nature Communications, 14(1), 5674 (9 pp.). https://doi.org/10.1038/s41467-023-41235-4
Non-equilibrium dynamics of spin-lattice coupling
Ueda, H., Mankowsky, R., Paris, E., Sander, M., Deng, Y., Liu, B., … Staub, U. (2023). Non-equilibrium dynamics of spin-lattice coupling. Nature Communications, 14(1), 7778 (7 pp.). https://doi.org/10.1038/s41467-023-43581-9
Effect of intense x-ray free-electron laser transient gratings on the magnetic domain structure of Tm:YIG
Ukleev, V., Burian, M., Gliga, S., Vaz, C. A. F., Rösner, B., Fainozzi, D., … Staub, U. (2023). Effect of intense x-ray free-electron laser transient gratings on the magnetic domain structure of Tm:YIG. Journal of Applied Physics, 133(12), 123902 (6 pp.). https://doi.org/10.1063/5.0119241
 

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