Lehrstuhl für Chemische Reaktionstechnik

Adresse:
Egerlandstraße 3
91058 Erlangen



Untergeordnete Organisationseinheiten

Professur für Katalytische Materialien
Professur für Katalytische Reaktoren und Prozesstechnik
Professur für Technische Chemie (Reaktionstechnik)


Forschungsprojekt(e)


(SPP 1708: Materialsynthese nahe Raumtemperatur):
Synthese neuartiger MOF-Materialien aus strukturgebenden und funktionalisierten Ionischen Flüssigkeiten
Prof. Dr. Martin Hartmann; Dr. Peter Schulz
(01.05.2014)



Publikationen (Download BibTeX)

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Albert, J., Mendt, M., Mozer, M., & Voß, D. (2019). Explaining the role of vanadium in homogeneous glucose transformation reactions using NMR and EPR spectroscopy. Applied Catalysis A-General, 570, 262-270.
Reif, B., Somboonvong, J., Fabisch, F., Kaspereit, M., Hartmann, M., & Schwieger, W. (2019). Solvent-free transformation of spray coated ZnO layers to ZIF-8 membranes. Microporous and Mesoporous Materials, 276, 29-40. https://dx.doi.org/10.1016/j.micromeso.2018.09.024
Runge, P., Sölch, C., Albert, J., Wasserscheid, P., Zöttl, G., & Grimm, V. (2019). Economic comparison of different electric fuels for energy scenarios in 2035. Applied Energy, 233-234, 1078 - 1093. https://dx.doi.org/10.1016/j.apenergy.2018.10.023
Wirth, J., Englisch, S., Wiktor, C., Taccardi, N., Wasserscheid, P., & Spiecker, E. (2018). Correlative 3D-Characterization of Liquid Metal Catalysts (LMC) utilizing X-ray and Analytical Electron Microscopy. In Microscopy Society of America 2018 (Eds.), Microscopy & Microanalysis 2018 (pp. 556-557). Saskatoon, Saskatchewan, Canada, CA.
Hovestadt, M., Schwegler, J., Schulz, P., & Hartmann, M. (2018). Synthesis of the zeolitic imidazolate framework ZIF-4 from the ionic liquid 1-butyl-3-methylimidazolium imidazolate. Journal of Chemical Physics, 148(19). https://dx.doi.org/10.1063/1.5016440
Nawaz, Q., Ur Rehman, M.A., Burkovski, A., Schmidt, J., Shahid, A., Peukert, W., & Boccaccini, A.R. (2018). Synthesis and characterization of manganese containing mesoporous bioactive glass nanoparticles for biomedical applications. Journal of Materials Science-Materials in Medicine. https://dx.doi.org/10.1007/s10856-018-6070-4
Nawaz, Q., Ur Rehman, M.A., Burkovski, A., Schmidt, J., Beltran, A.M., Shahid, A.,... Boccaccini, A.R. (2018). Synthesis and characterization of manganese containing mesoporous bioactive glass nanoparticles for biomedical applications. Journal of Materials Science-Materials in Medicine, 29(5). https://dx.doi.org/10.1007/s10856-018-6070-4
Kehrer, M., Mehler, J., Taccardi, N., Nagengast, J., Kadar, J., Collias, D.,... Albert, J. (2018). Zwitterionic Hydrobromic Acid Carriers for the Synthesis of 2-Bromopropionic Acid from Lactide. ChemSusChem, 11(6), 1063 - 1072. https://dx.doi.org/10.1002/cssc.201702369
Bachmann, P., Schwarz, M., Steinhauer, J., Späth, F., Düll, F., Bauer, U.,... Papp, C. (2018). Dehydrogenation of the Liquid Organic Hydrogen Carrier System Indole/Indoline/Octahydroindole on Pt(111). Journal of Physical Chemistry C, 122(8), 4470-4479. https://dx.doi.org/10.1021/acs.jpcc.7b12625
Lexow, M., May, B., Taccardi, N., Steinrück, H.-P., & Maier, F. (2018). Reactions of a Polyhalide Ionic Liquid with Copper, Silver, and Gold. ChemistryOpen. https://dx.doi.org/10.1002/open.201800149
Bauer, T., Stepic, R., Wolf, P., Kollhoff, F., Karawacka, W., Wick, C.,... Libuda, J. (2018). Dynamic equilibria in supported ionic liquid phase (SILP) catalysis: in situ IR spectroscopy identifies [Ru(CO)xCly]n species in water gas shift catalysis. Catalysis: Science and Technology, 8, 344-357. https://dx.doi.org/10.1039/C7CY02199B
Ntourmas, F. (2018). Untersuchungen zur atmosphärischen Plasmapolymerisation metallorganischer Funktionsschichten für die Energietechnik (Dissertation).
Preuster, P., & Albert, J. (2018). Biogenic formic acid as a green hydrogen carrier. Energy Technology. https://dx.doi.org/10.1002/ente.201700572
Bertleff, B., Claußnitzer, J., Goebel, R., Korth, W., Skiborowski, M., Wasserscheid, P.,... Albert, J. (2018). Investigations on catalyst stability and product isolation in the extractive oxidative desulfurization of fuels using polyoxometalates and molecular oxygen. ChemCatChem. https://dx.doi.org/10.1002/cctc.201801081
Tarkhanova, I., Gantman, M., Sigeev, A., Maslakov, K., Zelikman, V., & Beletskaya, I. (2018). High-yielding Sandmeyer reaction on immobilized Cu(I)/Cu(II)-based catalysts. Mendeleev Communications, 28(3), 261-263. https://dx.doi.org/10.1016/j.mencom.2018.05.010
Rauch, S., Piepenbreier, F., Voß, D., Albert, J., & Hartmann, M. (2018). LCA in Process Development: Case Study of the OxFA-Process. Springer.
Bertleff, B., Claußnitzer, J., Korth, W., Wasserscheid, P., Jess, A., & Albert, J. (2018). Catalyst activation and influence of the oil matrix on the extractive oxidative desulfurization using aqueous polyoxometalate solutions and molecular oxygen. ACS Catalysis. https://dx.doi.org/10.1021/acs.energyfuels.8b01514
Yang, Y., Zhou, J., Detsch, R., Taccardi, N., Heise, S., Virtanen, S., & Boccaccini, A.R. (2018). Biodegradable nanostructures: Degradation process and biocompatibility of iron oxide nanostructured arrays. Materials science & engineering. C, Materials for biological applications, 85, 203-213. https://dx.doi.org/10.1016/j.msec.2017.12.021
Nagengast, J., Hahn, S., Taccardi, N., Kehrer, M., Kadar, J., Collias, D.,... Albert, J. (2018). Highly selective synthesis of acrylic acid from lactide in the liquid phase. ChemSusChem. https://dx.doi.org/10.1002/cssc.201800914
Jorschick, H., Dürr, S., Preuster, P., Bösmann, A., & Wasserscheid, P. (2018). Operational stability of a LOHC-based hot pressure swing reactor for hydrogen storage. Energy Technology, 0(ja). https://dx.doi.org/10.1002/ente.201800499

Zuletzt aktualisiert 2016-05-05 um 04:59