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Sample environment for operando hard X-ray tomography - an enabling technology for multimodal characterization in heterogeneous catalysis
Becher, J., Weber, S., Ferreira Sanchez, D., Doronkin, D. E., Garrevoet, J., Falkenberg, G., … Sheppard, T. L. (2021). Sample environment for operando hard X-ray tomography - an enabling technology for multimodal characterization in heterogeneous catalysis. Catalysts, 11(4), 459 (18 pp.). https://doi.org/10.3390/catal11040459
Clusters and nanocrystals
Bostedt, C., Gorkhover, T., Rupp, D., & Möller, T. (2020). Clusters and nanocrystals. In E. J. Jaeschke, S. Khan, J. R. Schneider, & J. B. Hastings (Eds.), Synchrotron light sources and free-electron lasers. Accelerator physics, instrumentation and science applications (pp. 1525-1573). https://doi.org/10.1007/978-3-030-23201-6_39
CRL optics and silicon drift detector for P06 Microprobe experiments at 35 keV
Falkenberg, G., Seiboth, F., Koch, F., Falch, K. V., Schropp, A., Brückner, D., & Garrevoet, J. (2020). CRL optics and silicon drift detector for P06 Microprobe experiments at 35 keV. Powder Diffraction, 35(S1), S34-S37. https://doi.org/10.1017/S0885715620000536
Exploring the complex map of insulin polymorphism: a novel crystalline form in the presence of <em>m</em>-cresol
Karavassili, F., Valmas, A., Dimarogona, M., Giannopoulou, A. E., Fili, S., Norrman, M., … Margiolaki, I. (2020). Exploring the complex map of insulin polymorphism: a novel crystalline form in the presence of m-cresol. Acta Crystallographica Section D: Structural Biology, 76, 366-374. https://doi.org/10.1107/S2059798320002545
Time resolved <em>in situ</em> X-ray tomographic microscopy unraveling dynamic processes in geologic systems
Marone, F., Schlepütz, C. M., Marti, S., Fusseis, F., Velásquez-Parra, A., Griffa, M., … Stampanoni, M. (2020). Time resolved in situ X-ray tomographic microscopy unraveling dynamic processes in geologic systems. Frontiers in Earth Science, 7, 346 (20 pp.). https://doi.org/10.3389/feart.2019.00346
In situ synchrotron ultrasonic fatigue testing device for 3D characterisation of internal crack initiation and growth
Messager, A., Junet, A., Palin-Luc, T., Buffiere, J. Y., Saintier, N., Ranc, N., … Nadot, Y. (2020). In situ synchrotron ultrasonic fatigue testing device for 3D characterisation of internal crack initiation and growth. Fatigue and Fracture of Engineering Materials and Structures, 43(3), 558-567. https://doi.org/10.1111/ffe.13140
Infrared microscopy in the study of cellular biochemistry
Quaroni, L. (2020). Infrared microscopy in the study of cellular biochemistry. Infrared Physics and Technology, 105, 102779 (6 pp.). https://doi.org/10.1016/j.infrared.2018.11.026
The Diamond I13 full-field transmission X-ray microscope: a Zernike phase-contrast setup for material sciences
Storm, M., Döring, F., Marathe, S., David, C., & Rau, C. (2020). The Diamond I13 full-field transmission X-ray microscope: a Zernike phase-contrast setup for material sciences. Powder Diffraction. https://doi.org/10.1017/S0885715620000238
Gridless electron trap for a high-duty cycle magnetic bottle time-of-flight spectrometer
Strobel, C., Gantefoer, G., Bodi, A., & Hemberger, P. (2020). Gridless electron trap for a high-duty cycle magnetic bottle time-of-flight spectrometer. Journal of Electron Spectroscopy and Related Phenomena, 239, 146900 (6 pp.). https://doi.org/10.1016/j.elspec.2019.146900
Dissociative photoionization of 1,3-dioxolane: we need six channels to fit the elephant
Weidner, P., Voronova, K., Bodi, A., & Sztáray, B. (2020). Dissociative photoionization of 1,3-dioxolane: we need six channels to fit the elephant. Journal of Mass Spectrometry, 55(9), e4522 (10 pp.). https://doi.org/10.1002/jms.4522
Synchrotron radiation imaging revealing the sub-micron structure of the auditory ossicles
Anschuetz, L., Demattè, M., Pica, A., Wimmer, W., Caversaccio, M., & Bonnin, A. (2019). Synchrotron radiation imaging revealing the sub-micron structure of the auditory ossicles. Hearing Research, 383, 107806 (8 pp.). https://doi.org/10.1016/j.heares.2019.107806
Clusters and nanocrystals
Bostedt, C., Gorkhover, T., Rupp, D., & Möller, T. (2019). Clusters and nanocrystals. In E. Jaeschke, S. Khan, J. R. Schneider, & J. B. Hastings (Eds.), Synchrotron light sources and free-electron lasers. Accelerator physics, instrumentation and science applications (pp. 1-49). https://doi.org/10.1007/978-3-319-04507-8_39-2
Decomposition of picolyl radicals at high temperature: a mass selective threshold photoelectron spectroscopy study
Reusch, E., Holzmeier, F., Gerlach, M., Fischer, I., & Hemberger, P. (2019). Decomposition of picolyl radicals at high temperature: a mass selective threshold photoelectron spectroscopy study. Chemistry: A European Journal, 25(72), 16652-16659. https://doi.org/10.1002/chem.201903937
Threshold photoelectron spectroscopy of IO and HOI
Schleier, D., Reusch, E., Lummel, L., Hemberger, P., & Fischer, I. (2019). Threshold photoelectron spectroscopy of IO and HOI. ChemPhysChem, 20(19), 2413-2416. https://doi.org/10.1002/cphc.201900813
k-resolved electronic structure of buried heterostructure and impurity systems by soft-X-ray ARPES
Strocov, V. N., Lev, L. L., Kobayashi, M., Cancellieri, C., Husanu, M. A., Chikina, A., … Salman, Z. (2019). k-resolved electronic structure of buried heterostructure and impurity systems by soft-X-ray ARPES. Journal of Electron Spectroscopy and Related Phenomena, 236, 1-8. https://doi.org/10.1016/j.elspec.2019.06.009
Compact magnetic cell with permanent magnets for X-ray diffraction experiments
Tarnavich, V. V., Ukleev, V. A., Chernenkov, Y. P., Volegov, A. S., & Grigoriev, S. V. (2019). Compact magnetic cell with permanent magnets for X-ray diffraction experiments. Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 13(4), 567-569. https://doi.org/10.1134/S1027451019040165
1 kHz fixed-target serial crystallography using a multilayer monochromator and an integrating pixel detector
Tolstikova, A., Levantino, M., Yefanov, O., Hennicke, V., Fischer, P., Meyer, J., … Meents, A. (2019). 1 kHz fixed-target serial crystallography using a multilayer monochromator and an integrating pixel detector. IUCrJ, 6(5), 927-937. https://doi.org/10.1107/S205225251900914X
Towards MYTHEN 3: characterization of prototype chips
Andrä, M., Dinapoli, R., Bergamaschi, A., Barten, R., Brückner, M., Chiriotti Alvarez, S., … Zhang, J. (2018). Towards MYTHEN 3: characterization of prototype chips. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, 936, 383-385. https://doi.org/10.1016/j.nima.2018.11.026
Correlative multiscale 3D imaging of a hierarchical nanoporous gold catalyst by electron, ion and X-ray nanotomography
Fam, Y., Sheppard, T. L., Diaz, A., Scherer, T., Holler, M., Wang, W., … Grunwaldt, J. D. (2018). Correlative multiscale 3D imaging of a hierarchical nanoporous gold catalyst by electron, ion and X-ray nanotomography. ChemCatChem, 10(13), 2858-2867. https://doi.org/10.1002/cctc.201800230
Chemical state and atomic scale environment of nickel in the corrosion layer of irradiated Zircaloy-2 at a burn-up around 45 MWd/kg
Kuri, G., Ramanantoanina, H., Bertsch, J., Martin, M., & Panas, I. (2018). Chemical state and atomic scale environment of nickel in the corrosion layer of irradiated Zircaloy-2 at a burn-up around 45 MWd/kg. Corrosion Science, 143, 200-211. https://doi.org/10.1016/j.corsci.2018.08.032
 

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