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Spatial profiling of a Pd/Al<sub>2</sub>O<sub>3</sub> catalyst during selective ammmonia oxidation
Decarolis, D., Clark, A. H., Pellegrinelli, T., Nachtegaal, M., Lynch, E. W., Catlow, C. R. A., … Wells, P. P. (2021). Spatial profiling of a Pd/Al2O3 catalyst during selective ammmonia oxidation. ACS Catalysis, 11, 2141-2149. https://doi.org/10.1021/acscatal.0c05356
<sup>57</sup>Fe-enrichment effect on the composition and performance of Fe-based O<sub>2</sub>-reduction electrocatalysts
Ebner, K., Ni, L., Saveleva, V. A., Le Monnier, B. P., Clark, A. H., Krumeich, F., … Herranz, J. (2021). 57Fe-enrichment effect on the composition and performance of Fe-based O2-reduction electrocatalysts. Physical Chemistry Chemical Physics, 23(15), 9147-9157. https://doi.org/10.1039/d1cp00707f
Structure and performance of zeolite supported Pd for complete methane oxidation
Friberg, I., Clark, A. H., Ho, P. H., Sadokhina, N., Smales, G. J., Woo, J., … Olsson, L. (2021). Structure and performance of zeolite supported Pd for complete methane oxidation. Catalysis Today. https://doi.org/10.1016/j.cattod.2020.11.026
Oxygen evolution reaction activity and underlying mechanism of perovskite electrocatalysts at different pH
Kim, B. J., Fabbri, E., Borlaf, M., Abbott, D. F., Castelli, I. E., Nachtegaal, M., … Schmidt, T. J. (2021). Oxygen evolution reaction activity and underlying mechanism of perovskite electrocatalysts at different pH. Materials Advances, 2(1), 345-355. https://doi.org/10.1039/D0MA00661K
Potential‐induced spin changes in Fe/N/C electrocatalysts assessed by<em> in situ</em> X‐ray emission spectroscopy
Saveleva, V. A., Ebner, K., Ni, L., Smolentsev, G., Klose, D., Zitolo, A., … Herranz, J. (2021). Potential‐induced spin changes in Fe/N/C electrocatalysts assessed by in situ X‐ray emission spectroscopy. Angewandte Chemie International Edition, 60, 11707-11712. https://doi.org/10.1002/anie.202016951
An earth-abundant Ni-based single-atom catalyst for selective photodegradation of pollutants
Vilé, G., Sharma, P., Nachtegaal, M., Tollini, F., Moscatelli, D., Sroka-Bartnicka, A., … Gawande, M. B. (2021). An earth-abundant Ni-based single-atom catalyst for selective photodegradation of pollutants. Solar RRL. https://doi.org/10.1002/solr.202100176
Mechanistic study of carbon dioxide hydrogenation over Pd/ZnO‐based catalysts: the role of palladium‐zinc alloy in selective methanol synthesis
Zabilskiy, M., Sushkevich, V. L., Newton, M. A., Krumeich, F., Nachtegaal, M., & van Bokhoven, J. A. (2021). Mechanistic study of carbon dioxide hydrogenation over Pd/ZnO‐based catalysts: the role of palladium‐zinc alloy in selective methanol synthesis. Angewandte Chemie International Edition. https://doi.org/10.1002/anie.202103087
Tuning the Co oxidation state in Ba&lt;sub&gt;0.5&lt;/sub&gt;Sr&lt;sub&gt;0.5&lt;/sub&gt;Co&lt;sub&gt;0.8&lt;/sub&gt;Fe&lt;sub&gt;0.2&lt;/sub&gt;O&lt;sub&gt;3-δ&lt;/sub&gt; by flame spray synthesis towards high oxygen evolution reaction activity
Aegerter, D., Borlaf, M., Fabbri, E., Clark, A. H., Nachtegaal, M., Graule, T., & Schmidt, T. J. (2020). Tuning the Co oxidation state in Ba0.5Sr0.5Co0.8Fe0.2O3-δ by flame spray synthesis towards high oxygen evolution reaction activity. Catalysts, 10(9), 984 (16 pp.). https://doi.org/10.3390/catal10090984
&lt;em&gt;ProQEXAFS&lt;/em&gt;: a highly optimized parallelized rapid processing software for QEXAFS data
Clark, A. H., Imbao, J., Frahm, R., & Nachtegaal, M. (2020). ProQEXAFS: a highly optimized parallelized rapid processing software for QEXAFS data. Journal of Synchrotron Radiation, 27, 551-557. https://doi.org/10.1107/S1600577519017053
Fluorescence-detected quick-scanning X-ray absorption spectroscopy
Clark, A. H., Steiger, P., Bornmann, B., Hitz, S., Frahm, R., Ferri, D., & Nachtegaal, M. (2020). Fluorescence-detected quick-scanning X-ray absorption spectroscopy. Journal of Synchrotron Radiation, 27, 681-688. https://doi.org/10.1107/S1600577520002350
Selective catalytic reduction of NO with NH&lt;sub&gt;3&lt;/sub&gt; on Cu−SSZ-13: deciphering the low and high-temperature rate-limiting steps by transient XAS experiments
Clark, A. H., Nuguid, R. J. G., Steiger, P., Marberger, A., Petrov, A. W., Ferri, D., … Kröcher, O. (2020). Selective catalytic reduction of NO with NH3 on Cu−SSZ-13: deciphering the low and high-temperature rate-limiting steps by transient XAS experiments. ChemCatChem, 12(5), 1429-1435. https://doi.org/10.1002/cctc.201901916
Operation of a bending magnet beamline in large energy bandwidth mode for non-resonant X-ray emission spectroscopy
Dikaya, O., Nachtegaal, M., Szlachetko, J., Ebner, K., Saveleva, V., Weder, N., … Smolentsev, G. (2020). Operation of a bending magnet beamline in large energy bandwidth mode for non-resonant X-ray emission spectroscopy. Results in Physics, 18, 103212 (8 pp.). https://doi.org/10.1016/j.rinp.2020.103212
Ruthenium on phosphorous-modified alumina as an effective and stable catalyst for catalytic transfer hydrogenation of furfural
Fovanna, T., Campisi, S., Villa, A., Kambolis, A., Peng, G., Rentsch, D., … Ferri, D. (2020). Ruthenium on phosphorous-modified alumina as an effective and stable catalyst for catalytic transfer hydrogenation of furfural. RSC Advances, 10(19), 11507-11516. https://doi.org/10.1039/D0RA00415D
Detection of key transient Cu intermediates in SSZ-13 during NH&lt;sub&gt;3&lt;/sub&gt;-SCR deNO&lt;em&gt;&lt;sub&gt;x&lt;/sub&gt;&lt;/em&gt; by modulation excitation IR spectroscopy
Greenaway, A. G., Marberger, A., Thetford, A., Lezcano-González, I., Agote-Arán, M., Nachtegaal, M., … Beale, A. M. (2020). Detection of key transient Cu intermediates in SSZ-13 during NH3-SCR deNOx by modulation excitation IR spectroscopy. Chemical Science, 11(2), 447-455. https://doi.org/10.1039/C9SC04905C
Key activity descriptors of nickel-iron oxygen evolution electrocatalysts in the presence of alkali metal cations
Görlin, M., Halldin Stenlid, J., Koroidov, S., Wang, H. Y., Börner, M., Shipilin, M., … Diaz-Morales, O. (2020). Key activity descriptors of nickel-iron oxygen evolution electrocatalysts in the presence of alkali metal cations. Nature Communications, 11(1), 6181 (11 pp.). https://doi.org/10.1038/s41467-020-19729-2
Elucidating the mechanism of heterogeneous Wacker oxidation over Pd-Cu/zeolite Y by transient XAS
Imbao, J., van Bokhoven, J. A., Clark, A., & Nachtegaal, M. (2020). Elucidating the mechanism of heterogeneous Wacker oxidation over Pd-Cu/zeolite Y by transient XAS. Nature Communications, 11, 1118 (9 pp.). https://doi.org/10.1038/s41467-020-14982-x
Optimization of a heterogeneous Pd–Cu/zeolite Y wacker catalyst for ethylene oxidation
Imbao, J., van Bokhoven, J. A., & Nachtegaal, M. (2020). Optimization of a heterogeneous Pd–Cu/zeolite Y wacker catalyst for ethylene oxidation. Chemical Communications, 56(9), 1377-1380. https://doi.org/10.1039/C9CC08835K
&lt;em&gt;Operando &lt;/em&gt;sulfur speciation during sulfur poisoning-regeneration of Ru/SiO&lt;sub&gt;2&lt;/sub&gt; and Ru/Al&lt;sub&gt;2&lt;/sub&gt;O&lt;sub&gt;3&lt;/sub&gt; using non-resonant sulfur Kα&lt;sub&gt;1,2&lt;/sub&gt; emission
Kuzmenko, D., Clark, A. H., Schildhauer, T., Szlachetko, J., & Nachtegaal, M. (2020). Operando sulfur speciation during sulfur poisoning-regeneration of Ru/SiO2 and Ru/Al2O3 using non-resonant sulfur Kα1,2 emission. RSC Advances, 10(27), 15853-15859. https://doi.org/10.1039/d0ra03068f
Examining the surface evolution of LaTiO&lt;sub&gt;x&lt;/sub&gt;N&lt;sub&gt;y&lt;/sub&gt; an oxynitride solar water splitting photocatalyst
Lawley, C., Nachtegaal, M., Stahn, J., Roddatis, V., Döbeli, M., Schmidt, T. J., … Lippert, T. (2020). Examining the surface evolution of LaTiOxNy an oxynitride solar water splitting photocatalyst. Nature Communications, 11, 1728 (11 pp.). https://doi.org/10.1038/s41467-020-15519-y
Influence of CO on dry CH&lt;sub&gt;4&lt;/sub&gt; oxidation on Pd/Al&lt;sub&gt;2&lt;/sub&gt;O&lt;sub&gt;3&lt;/sub&gt; by operando spectroscopy: a multitechnique modulated excitation study
Marchionni, V., Nachtegaal, M., & Ferri, D. (2020). Influence of CO on dry CH4 oxidation on Pd/Al2O3 by operando spectroscopy: a multitechnique modulated excitation study. ACS Catalysis, 10(8), 4791-4804. https://doi.org/10.1021/acscatal.9b05541
 

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