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Continuous microfluidic synthesis of colloidal ultrasmall gold nanoparticles:<em> in situ </em>study of the early reaction stages and application for catalysis
Tofighi, G., Lichtenberg, H., Pesek, J., Sheppard, T. L., Wang, W., Schöttner, L., … Grunwaldt, J. D. (2017). Continuous microfluidic synthesis of colloidal ultrasmall gold nanoparticles: in situ study of the early reaction stages and application for catalysis. Reaction Chemistry & Engineering, 2(6), 876-884. https://doi.org/10.1039/c7re00114b
Catalytic oxidation of aqueous bioethanol: an efficient upgrade from batch to flow
Mostrou, S., Sipőcz, T., Nagl, A., Fődi, B., Darvas, F., Föttinger, K., & van Bokhoven, J. A. (2018). Catalytic oxidation of aqueous bioethanol: an efficient upgrade from batch to flow. Reaction Chemistry & Engineering, 3(5), 781-789. https://doi.org/10.1039/c8re00054a
The dynamic nature of Cu sites in Cu-SSZ-13 and the origin of the seagull NO<sub>x</sub> conversion profile during NH<sub>3</sub>-SCR
Fahami, A. R., Günter, T., Doronkin, D. E., Casapu, M., Zengel, D., Vuong, T. H., … Grunwaldt, J. D. (2019). The dynamic nature of Cu sites in Cu-SSZ-13 and the origin of the seagull NOx conversion profile during NH3-SCR. Reaction Chemistry & Engineering, 4(6), 1000-1018. https://doi.org/10.1039/C8RE00290H
High redox performance of Y&lt;sub&gt;0.5&lt;/sub&gt;Ba&lt;sub&gt;0.5&lt;/sub&gt;CoO&lt;sub&gt;3-&lt;em&gt;δ&lt;/em&gt;&lt;/sub&gt; for thermochemical oxygen production and separation
Ezbiri, M., Reinhart, A., Huber, B., Allen, K. M., Steinfeld, A., Bulfin, B., & Michalsky, R. (2020). High redox performance of Y0.5Ba0.5CoO3-δ for thermochemical oxygen production and separation. Reaction Chemistry & Engineering, 5(4), 685-695. https://doi.org/10.1039/c9re00430k
Kinetic modelling of reactions for the synthesis of 2-methyl-5-ethyl pyridine
Moioli, E., Schmid, L., Wasserscheid, P., & Freund, H. (2021). Kinetic modelling of reactions for the synthesis of 2-methyl-5-ethyl pyridine. Reaction Chemistry & Engineering, 6(7), 1254-1264. https://doi.org/10.1039/d1re00085c