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Iron in hydroxyapatite: interstitial or substitution sites?
Avakyan, L., Paramonova, E., Bystrov, V., Coutinho, J., Gomes, S., & Renaudin, G. (2021). Iron in hydroxyapatite: interstitial or substitution sites? Nanomaterials, 11(11), 2978 (19 pp.). https://doi.org/10.3390/nano11112978
Increased Ir-Ir interaction in iridium oxide during the oxygen evolution reaction at high potentials probed by operando spectroscopy
Czioska, S., Boubnov, A., Escalera-López, D., Geppert, J., Zagalskaya, A., Röse, P., … Grunwaldt, J. D. (2021). Increased Ir-Ir interaction in iridium oxide during the oxygen evolution reaction at high potentials probed by operando spectroscopy. ACS Catalysis, 11(15), 10043-10057. https://doi.org/10.1021/acscatal.1c02074
Advances in diffraction studies of light-induced transient species in molecular crystals and selected complementary techniques
Deresz, K. A., Łaski, P., Kamiński, R., & Jarzembska, K. N. (2021). Advances in diffraction studies of light-induced transient species in molecular crystals and selected complementary techniques. Crystals, 11(11), 1345 (37 pp.). https://doi.org/10.3390/cryst11111345
Mechanistic insights into oxygen dynamics in soot combustion over cryptomelane catalysts in tight and loose contact modes via <sup>18</sup>O<sub>2</sub>/<sup>16</sup>O<sub>2</sub> isotopic variable composition measurements-a hot ring model of the catalyst
Gryboś, J., Fedyna, M., Legutko, P., Leszczyński, B., Janas, J., Wach, A., … Sojka, Z. (2021). Mechanistic insights into oxygen dynamics in soot combustion over cryptomelane catalysts in tight and loose contact modes via 18O2/16O2 isotopic variable composition measurements-a hot ring model of the catalyst operation. ACS Catalysis, 11(15), 9530-9546. https://doi.org/10.1021/acscatal.1c02152
High-temperature treatments of niobium under high vacuum, dilute air- and nitrogen-atmospheres as investigated by &lt;em&gt;in situ&lt;/em&gt; X-ray absorption spectroscopy
Klaes, J., Rothweiler, P., Bornmann, B., Wagner, R., & Lützenkirchen-Hecht, D. (2021). High-temperature treatments of niobium under high vacuum, dilute air- and nitrogen-atmospheres as investigated by in situ X-ray absorption spectroscopy. Journal of Synchrotron Radiation, 28, 266-277. https://doi.org/10.1107/S1600577520013557
Atmosphere-induced transient structural transformations of Pd-Cu and Pt-Cu alloy nanocrystals
Pasquale, L., Najafishirtari, S., Brescia, R., Scarpellini, A., Demirci, C., Colombo, M., & Manna, L. (2021). Atmosphere-induced transient structural transformations of Pd-Cu and Pt-Cu alloy nanocrystals. Chemistry of Materials, 33(22), 8635-8648. https://doi.org/10.1021/acs.chemmater.1c02377
Surfactant-free synthesis of size controlled platinum nanoparticles: Insights from &lt;em&gt;in situ&lt;/em&gt; studies
Quinson, J., Dworzak, A., Simonsen, S. B., Theil Kuhn, L., Jensen, K. M. Ø., Zana, A., … Arenz, M. (2021). Surfactant-free synthesis of size controlled platinum nanoparticles: Insights from in situ studies. Applied Surface Science, 549, 149263 (9 pp.). https://doi.org/10.1016/j.apsusc.2021.149263
Organometallic synthesis of bimetallic cobalt-rhodium nanoparticles in supported ionic liquid phases (Co&lt;sub&gt;x&lt;/sub&gt;Rh&lt;sub&gt;100−&lt;/sub&gt;&lt;sub&gt;x&lt;/sub&gt;@SILP) as catalysts for the selective hydrogenation of multifunctional aro
Rengshausen, S., Van Stappen, C., Levin, N., Tricard, S., Luska, K. L., DeBeer, S., … Leitner, W. (2021). Organometallic synthesis of bimetallic cobalt-rhodium nanoparticles in supported ionic liquid phases (CoxRh100−x@SILP) as catalysts for the selective hydrogenation of multifunctional aromatic substrates. Small, 17(5), 2006683 (10 pp.). https://doi.org/10.1002/smll.202006683
Preparation of recyclable and versatile porous poly(aryl thioether)s by reversible Pd-catalyzed C–S/C–S metathesis
Rivero-Crespo, M. A., Toupalas, G., & Morandi, B. (2021). Preparation of recyclable and versatile porous poly(aryl thioether)s by reversible Pd-catalyzed C–S/C–S metathesis. Journal of the American Chemical Society, 143(50), 21331-21339. https://doi.org/10.1021/jacs.1c09884
A molecular analogue of the C−H activation intermediate of the silica-supported Ga(III) single-site propane dehydrogenation catalyst: structure and XANES signature
Rochlitz, L., Searles, K., Nater, D. F., Docherty, S. R., Gioffrè, D., & Copéret, C. (2021). A molecular analogue of the C−H activation intermediate of the silica-supported Ga(III) single-site propane dehydrogenation catalyst: structure and XANES signature. Helvetica Chimica Acta, 104(7), e2100078 (7 pp.). https://doi.org/10.1002/hlca.202100078
Structure sensitivity of nitrogen–doped carbon–supported metal catalysts in dihalomethane hydrodehalogenation
Saadun, A. J., Ruiz–Ferrando, A., Büchele, S., Faust Akl, D., López, N., & Pérez–Ramírez, J. (2021). Structure sensitivity of nitrogen–doped carbon–supported metal catalysts in dihalomethane hydrodehalogenation. Journal of Catalysis, 404, 291-305. https://doi.org/10.1016/j.jcat.2021.10.008
Spatially-resolved insights into local activity and structure of Ni-Based CO<sub>2</sub> methanation catalysts in fixed-bed reactors
Serrer, M. A., Stehle, M., Schulte, M. L., Besser, H., Pfleging, W., Saraҫi, E., & Grunwaldt, J. D. (2021). Spatially-resolved insights into local activity and structure of Ni-Based CO2 methanation catalysts in fixed-bed reactors. ChemCatChem, 13(13), 3010-3020. https://doi.org/10.1002/cctc.202100490
Gold-in-copper at low *CO coverage enables efficient electromethanation of CO<sub>2</sub>
Wang, X., Ou, P., Wicks, J., Xie, Y., Wang, Y., Li, J., … Sargent, E. H. (2021). Gold-in-copper at low *CO coverage enables efficient electromethanation of CO2. Nature Communications, 12, 3387 (7 pp.). https://doi.org/10.1038/s41467-021-23699-4
Transformation of TiO<sub>2</sub> (nano)particles during sewage sludge incineration
Wielinski, J., Voegelin, A., Grobéty, B., Müller, C. R., Morgenroth, E., & Kaegi, R. (2021). Transformation of TiO2 (nano)particles during sewage sludge incineration. Journal of Hazardous Materials, 411, 124932 (14 pp.). https://doi.org/10.1016/j.jhazmat.2020.124932
Two-dimensional molybdenum carbide 2D-Mo<sub>2</sub>C as a superior catalyst for CO<sub>2</sub> hydrogenation
Zhou, H., Chen, Z., Kountoupi, E., Tsoukalou, A., Abdala, P. M., Florian, P., … Müller, C. R. (2021). Two-dimensional molybdenum carbide 2D-Mo2C as a superior catalyst for CO2 hydrogenation. Nature Communications, 12, 5510 (10 pp.). https://doi.org/10.1038/s41467-021-25784-0