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Infrared thermography as an operando tool for the analysis of catalytic processes: How to use it?
Mutschler, R., & Moioli, E. (2021). Infrared thermography as an operando tool for the analysis of catalytic processes: How to use it? Catalysts, 11(3), 311 (21 pp.). https://doi.org/10.3390/catal11030311
Carrier-induced modification of palladium nanoparticles on porous boron nitride for alkyne semi-hydrogenation
Büchele, S., Chen, Z., Fako, E., Krumeich, F., Hauert, R., Safonova, O. V., … Pérez-Ramírez, J. (2020). Carrier-induced modification of palladium nanoparticles on porous boron nitride for alkyne semi-hydrogenation. Angewandte Chemie International Edition, 59(44), 19639-19644. https://doi.org/10.1002/anie.202005842
Imaging catalysis: operando investigation of the CO<sub>2</sub> hydrogenation reaction dynamics by means of infrared thermography
Mutschler, R., Moioli, E., Zhao, K., Lombardo, L., Oveisi, E., Porta, A., … Züttel, A. (2020). Imaging catalysis: operando investigation of the CO2 hydrogenation reaction dynamics by means of infrared thermography. ACS Catalysis, 10(3), 1721-1730. https://doi.org/10.1021/acscatal.9b04475
Simple environmentally-friendly reduction of 4-nitrophenol
Serrà, A., Artal, R., Pozo, M., Garcia-Amorós, J., & Gómez, E. (2020). Simple environmentally-friendly reduction of 4-nitrophenol. Catalysts, 10(4), 458 (12 pp.). https://doi.org/10.3390/catal10040458
Atom-by-atom resolution of structure-function relations over low-nuclearity metal catalysts
Vorobyeva, E., Fako, E., Chen, Z., Collins, S. M., Johnstone, D., Midgley, P. A., … Pérez-Ramírez, J. (2019). Atom-by-atom resolution of structure-function relations over low-nuclearity metal catalysts. Angewandte Chemie International Edition, 58(26), 8724-8729. https://doi.org/10.1002/anie.201902136
Remarkable carbon dioxide hydrogenation to ethanol on a palladium/iron oxide single-atom catalyst
Caparrós, F. J., Soler, L., Rossell, M. D., Angurell, I., Piccolo, L., Rossell, O., & Llorca, J. (2018). Remarkable carbon dioxide hydrogenation to ethanol on a palladium/iron oxide single-atom catalyst. ChemCatChem, 10(11), 2365-2369. https://doi.org/10.1002/cctc.201800362
The origin of the catalytic activity of a metal hydride in CO<SUB>2</SUB> reduction
Kato, S., Matam, S. K., Kerger, P., Bernard, L., Battaglia, C., Vogel, D., … Züttel, A. (2016). The origin of the catalytic activity of a metal hydride in CO2 reduction. Angewandte Chemie International Edition, 55(20), 6028-6032. https://doi.org/10.1002/anie.201601402
Isolated Pd sites on the intermetallic PdGa(111) and PdGa(ī ī ī) model catalyst surfaces
Prinz, J., Gaspari, R., Pignedoli, C. A., Vogt, J., Gille, P., Armbrüster, M., … Widmer, R. (2012). Isolated Pd sites on the intermetallic PdGa(111) and PdGa(ī ī ī) model catalyst surfaces. Angewandte Chemie International Edition, 51(37), 9339-9343. https://doi.org/10.1002/anie.201203787
Probing surface properties and reaction intermediates during heterogeneous catalytic oxidation of acetaldehyde
Kydd, R., Teoh, W. Y., Scott, J., Ferri, D., & Amal, R. (2009). Probing surface properties and reaction intermediates during heterogeneous catalytic oxidation of acetaldehyde. ChemCatChem, 1(2), 286-294. https://doi.org/10.1002/cctc.200900099