Pd Nanoparticle-Loaded Smart Microgel-Based Membranes as Reusable Catalysts

Sabadasch V, Dirksen M, Fandrich P, Cremer J, Biere N, Anselmetti D, Hellweg T (2022)
ACS Applied Materials & Interfaces 14(43): 49181–49188.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Abstract / Bemerkung
In this work, palladium-loaded smart membranes made by UV cross-linking of thermoresponsive microgels are prepared to obtain a reusable, catalytically active material which can, for example, be implemented in chemical reactors. The membranes are examined with respect to their coverage of a supporting mesh via atomic force microscopy measurements. Force indentation mapping was performed in the dried, collapsed state and in the swollen state in water to determine the Young modulus. Furthermore, we compare the catalytic activity of the membrane with the corresponding suspended colloidal nanoparticle microgel hybrids. For this purpose, the reduction of 4-nitrophenol is an established model reaction to quantify the catalytic activity by UV–vis spectroscopy. The membrane is embedded inside a continuous stirred tank reactor equipped for continuous monitoring of the reaction progress. Although catalysis with membranes shows lower catalytic activity than freely dispersed particles, membranes allow straightforward separation and recycling of the catalyst. The fabricated membranes in this work show no decrease in catalytic activity between several cycles, unlike free particles. The feasible and durable deposition of catalytically active inter-cross-linked microgel particles on commercial nylon meshes as supporting scaffolds, as demonstrated in this work, is promising for up-scaling of continuous industrial processes.
Erscheinungsjahr
2022
Zeitschriftentitel
ACS Applied Materials & Interfaces
Band
14
Ausgabe
43
Seite(n)
49181–49188
ISSN
1944-8244
eISSN
1944-8252
Page URI
https://pub.uni-bielefeld.de/record/2966393

Zitieren

Sabadasch V, Dirksen M, Fandrich P, et al. Pd Nanoparticle-Loaded Smart Microgel-Based Membranes as Reusable Catalysts. ACS Applied Materials & Interfaces. 2022;14(43):49181–49188.
Sabadasch, V., Dirksen, M., Fandrich, P., Cremer, J., Biere, N., Anselmetti, D., & Hellweg, T. (2022). Pd Nanoparticle-Loaded Smart Microgel-Based Membranes as Reusable Catalysts. ACS Applied Materials & Interfaces, 14(43), 49181–49188. https://doi.org/10.1021/acsami.2c14415
Sabadasch, Viktor, Dirksen, Maxim, Fandrich, Pascal, Cremer, Julian, Biere, Niklas, Anselmetti, Dario, and Hellweg, Thomas. 2022. “Pd Nanoparticle-Loaded Smart Microgel-Based Membranes as Reusable Catalysts”. ACS Applied Materials & Interfaces 14 (43): 49181–49188.
Sabadasch, V., Dirksen, M., Fandrich, P., Cremer, J., Biere, N., Anselmetti, D., and Hellweg, T. (2022). Pd Nanoparticle-Loaded Smart Microgel-Based Membranes as Reusable Catalysts. ACS Applied Materials & Interfaces 14, 49181–49188.
Sabadasch, V., et al., 2022. Pd Nanoparticle-Loaded Smart Microgel-Based Membranes as Reusable Catalysts. ACS Applied Materials & Interfaces, 14(43), p 49181–49188.
V. Sabadasch, et al., “Pd Nanoparticle-Loaded Smart Microgel-Based Membranes as Reusable Catalysts”, ACS Applied Materials & Interfaces, vol. 14, 2022, pp. 49181–49188.
Sabadasch, V., Dirksen, M., Fandrich, P., Cremer, J., Biere, N., Anselmetti, D., Hellweg, T.: Pd Nanoparticle-Loaded Smart Microgel-Based Membranes as Reusable Catalysts. ACS Applied Materials & Interfaces. 14, 49181–49188 (2022).
Sabadasch, Viktor, Dirksen, Maxim, Fandrich, Pascal, Cremer, Julian, Biere, Niklas, Anselmetti, Dario, and Hellweg, Thomas. “Pd Nanoparticle-Loaded Smart Microgel-Based Membranes as Reusable Catalysts”. ACS Applied Materials & Interfaces 14.43 (2022): 49181–49188.

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Material in PUB:
Dissertation, die diesen PUB Eintrag enthält
Preparation and Investigation of Responsive Microgels in Flow Reactors
Fandrich P (2022)
Bielefeld: Universität Bielefeld.
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