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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
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
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
Charge transfer and orbital reconstruction at an organic-oxide interface
Caputo, M., Studniarek, M., Guedes, E. B., Schio, L., Baiseitov, K., Daffé, N., … Dreiser, J. (2023). Charge transfer and orbital reconstruction at an organic-oxide interface. Nano Letters, 23(23), 11211-11218. https://doi.org/10.1021/acs.nanolett.3c03713
h-BN/Metal-Oxide interface grown by intercalation: a model system for nano-confined catalysis
Diulus, J. T., Novotny, Z., Dongfang, N., Beckord, J., Al-Hamdani, Y., Comini, N., … Osterwalder, J. (2023). h-BN/Metal-Oxide interface grown by intercalation: a model system for nano-confined catalysis. Journal of Physical Chemistry C. https://doi.org/10.1021/acs.jpcc.3c07828
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
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
Periodogram-based detection of unknown frequencies in time-resolved scanning transmission X-ray microscopy
Finizio, S., Bailey, J. B., Olsthoorn, B., & Raabe, J. (2022). Periodogram-based detection of unknown frequencies in time-resolved scanning transmission X-ray microscopy. ACS Nano, 16(12), 21071-21078. https://doi.org/10.1021/acsnano.2c08874
X-ray investigation of long-range antiferromagnetic ordering in FeRh
Grimes, M., Gurung, N., Ueda, H., Porter, D. G., Pedrini, B., Heyderman, L. J., … Scagnoli, V. (2022). X-ray investigation of long-range antiferromagnetic ordering in FeRh. AIP Advances, 12(3), 035048 (5 pp.). https://doi.org/10.1063/9.0000320
Cyclooctatetraenide-based single-ion magnets featuring bulky cyclopentadienyl ligand
Korzyński, M. D., Bernhardt, M., Romankov, V., Dreiser, J., Matmon, G., Pointillart, F., … Copéret, C. (2022). Cyclooctatetraenide-based single-ion magnets featuring bulky cyclopentadienyl ligand. Chemical Science, 13(35), 10574-10580. https://doi.org/10.1039/D2SC02560D
Metamagnetic transition and a loss of magnetic hysteresis caused by electron trapping in monolayers of single-molecule magnet Tb<sub>2</sub>@C<sub>79</sub>N
Koutsouflakis, E., Krylov, D., Bachellier, N., Sostina, D., Dubrovin, V., Liu, F., … Popov, A. A. (2022). Metamagnetic transition and a loss of magnetic hysteresis caused by electron trapping in monolayers of single-molecule magnet Tb2@C79N. Nanoscale, 14(27), 9877-9892. https://doi.org/10.1039/d1nr08475e
Slope error correction on X-ray reflection gratings by a variation of the local line density
Kubec, A., Samadi, N., Langer, M., Döring, F., Rösner, B., Guzenko, V. A., … David, C. (2022). Slope error correction on X-ray reflection gratings by a variation of the local line density. Optics Express, 30(26), 46248-46258. https://doi.org/10.1364/OE.471438
Giant Chern number of a Weyl nodal surface without upper limit
Ma, J. Z., Zhang, S. N., Song, J. P., Wu, Q. S., Ekahana, S. A., Naamneh, M., … Shi, M. (2022). Giant Chern number of a Weyl nodal surface without upper limit. Physical Review B, 105(11), 115118 (8 pp.). https://doi.org/10.1103/PhysRevB.105.115118
Fluorine-rich zinc oxoclusters as extreme ultraviolet photoresists: chemical reactions and lithography performance
Thakur, N., Vockenhuber, M., Ekinci, Y., Watts, B., Giglia, A., Mahne, N., … Brouwer, A. M. (2022). Fluorine-rich zinc oxoclusters as extreme ultraviolet photoresists: chemical reactions and lithography performance. ACS Materials Au, 2(3), 343-355. https://doi.org/10.1021/acsmaterialsau.1c00059