Veröffentlichungen 2018
From model compounds to applications: Kinetic studies on the activation of dioxygen using an iron complex in a SuperFocus mixer
Miska, A.; Schurr, D.; Rinke, G.; Dittmeyer, R.; Schindler, S.
2018. Chemical engineering science, 190, 459–465. doi:10.1016/j.ces.2018.05.064
Miska, A.; Schurr, D.; Rinke, G.; Dittmeyer, R.; Schindler, S.
2018. Chemical engineering science, 190, 459–465. doi:10.1016/j.ces.2018.05.064
An integrated diesel fuel processing system with thermal start-up for fuel cells
Samsun, R. C.; Prawitz, M.; Tschauder, A.; Pasel, J.; Pfeifer, P.; Peters, R.; Stolten, D.
2018. Applied energy, 226, 145–159. doi:10.1016/j.apenergy.2018.05.116
Samsun, R. C.; Prawitz, M.; Tschauder, A.; Pasel, J.; Pfeifer, P.; Peters, R.; Stolten, D.
2018. Applied energy, 226, 145–159. doi:10.1016/j.apenergy.2018.05.116
Numerical analysis on the effect of bifurcation angle and inlet velocity on the distribution uniformity performance of consecutive birfurcating fluid flow distributors
Cao, J.; Kraut, M.; Dittmeyer, R.; Zhang, L.; Xu, H.
2018. International communications in heat and mass transfer, 93, 60–65. doi:10.1016/j.icheatmasstransfer.2017.04.017
Cao, J.; Kraut, M.; Dittmeyer, R.; Zhang, L.; Xu, H.
2018. International communications in heat and mass transfer, 93, 60–65. doi:10.1016/j.icheatmasstransfer.2017.04.017
Comparative study based on energy and exergy analyses of a baffled solar air heater with latent storage collector
Ghiami, A.; Ghiami, S.
2018. Applied thermal engineering, 133, 797–808. doi:10.1016/j.applthermaleng.2017.11.111
Ghiami, A.; Ghiami, S.
2018. Applied thermal engineering, 133, 797–808. doi:10.1016/j.applthermaleng.2017.11.111
Revealing structure and mechanism of Palladium during direct synthesis of hydrogen peroxide in continuous flow using operando spectroscopy
Dittmeyer, R.; Selinsek, M.; Deschner, B.; Doronkin, D.; Sheppard, T.; Grunwaldt, J. D.
2018. ACS catalysis, 8 (3), 2546–2557. doi:10.1021/acscatal.7b03514
Dittmeyer, R.; Selinsek, M.; Deschner, B.; Doronkin, D.; Sheppard, T.; Grunwaldt, J. D.
2018. ACS catalysis, 8 (3), 2546–2557. doi:10.1021/acscatal.7b03514
Optimization of membrane area to catalyst mass in a microstructured membrane reactor for dehydrogenation of methylcyclohexane
Cholewa, M.; Zehner, B.; Kreuder, H.; Pfeifer, P.
2018. Chemical engineering and processing, 125, 325–333. doi:10.1016/j.cep.2017.10.011
Cholewa, M.; Zehner, B.; Kreuder, H.; Pfeifer, P.
2018. Chemical engineering and processing, 125, 325–333. doi:10.1016/j.cep.2017.10.011
Application of hot-wire anemometry for experimental investigation of flow distribution in micro-packed bed reactors for synthesis gas conversion
Dadgar, F.; Venvik, H. J.; Pfeifer, P.
2018. Chemical engineering science, 177, 110–121. doi:10.1016/j.ces.2017.10.039
Dadgar, F.; Venvik, H. J.; Pfeifer, P.
2018. Chemical engineering science, 177, 110–121. doi:10.1016/j.ces.2017.10.039
Microfluidic Synthesis of Ultrasmall AuPd Nanoparticles with a Homogeneously Mixed Alloy Structure in Fast Continuous Flow for Catalytic Applications
Tofighi, G.; Gaur, A.; Doronkin, D. E.; Lichtenberg, H.; Wang, W.; Wang, D.; Rinke, G.; Ewinger, A.; Dittmeyer, R.; Grunwaldt, J.-D.
2018. The journal of physical chemistry <Washington, DC> / C, 122 (3), 1721–1731. doi:10.1021/acs.jpcc.7b11383
Tofighi, G.; Gaur, A.; Doronkin, D. E.; Lichtenberg, H.; Wang, W.; Wang, D.; Rinke, G.; Ewinger, A.; Dittmeyer, R.; Grunwaldt, J.-D.
2018. The journal of physical chemistry <Washington, DC> / C, 122 (3), 1721–1731. doi:10.1021/acs.jpcc.7b11383
Performance Improvement of V-Fe-Cr-Ti Solid State Hydrogen Storage Materials in Impure Hydrogen Gas
Ulmer, U.; Oertel, D.; Diemant, T.; Bonatto Minella, C.; Bergfeldt, T.; Dittmeyer, R.; Behm, R. J.; Fichtner, M.
2018. ACS applied materials & interfaces, 10 (2), 1662–1671. doi:10.1021/acsami.7b13541
Ulmer, U.; Oertel, D.; Diemant, T.; Bonatto Minella, C.; Bergfeldt, T.; Dittmeyer, R.; Behm, R. J.; Fichtner, M.
2018. ACS applied materials & interfaces, 10 (2), 1662–1671. doi:10.1021/acsami.7b13541
Laser und Diffusionsschweißen für Fügeaufgaben an mikroverfahrenstechnischen Bauteilen. Teil 2
Gietzelt, T.; Eichhorn, L.; Wunsch, T.; Toth, V.; Hüll, A.
2018. Galvanotechnik, 109 (10), 1989–1995
Gietzelt, T.; Eichhorn, L.; Wunsch, T.; Toth, V.; Hüll, A.
2018. Galvanotechnik, 109 (10), 1989–1995
Laser und Diffusionsschweißen für Fügeaufgaben an mikroverfahrenstechnischen Bauteilen. Teil 1
Gietzelt, T.; Eichhorn, L.; Wunsch, T.; Toth, V.; Hüll, A.
2018. Galvanotechnik, 109 (9), 1756–1765
Gietzelt, T.; Eichhorn, L.; Wunsch, T.; Toth, V.; Hüll, A.
2018. Galvanotechnik, 109 (9), 1756–1765
Intensified LOHC-dehydrogenation using multistage microstructures and Pd-based membranes
Wunsch, A.; Mohr, M.; Pfeifer, P.
2018. Membranes, 8 (4), 112-. doi:10.3390/membranes8040112
Wunsch, A.; Mohr, M.; Pfeifer, P.
2018. Membranes, 8 (4), 112-. doi:10.3390/membranes8040112
Experimental Evaluation of a Membrane Micro Channel Reactor for Liquid Phase Direct Synthesis of Hydrogen Peroxide in Continuous Flow Using Nafion® Membranes for Safe Utilization of Undiluted Reactants
Selinsek, M.; Kraut, M.; Dittmeyer, R.
2018. Catalysts, 8 (11), Article: 556. doi:10.3390/catal8110556
Selinsek, M.; Kraut, M.; Dittmeyer, R.
2018. Catalysts, 8 (11), Article: 556. doi:10.3390/catal8110556
Neues von der Mikroverfahrenstechnik
Pietrek, P.; Deschner, B.; Navarrete, A.
2018. Chemie - Ingenieur - Technik, 90 (12), 1943–1948. doi:10.1002/cite.201800173
Pietrek, P.; Deschner, B.; Navarrete, A.
2018. Chemie - Ingenieur - Technik, 90 (12), 1943–1948. doi:10.1002/cite.201800173
Recent developments in compact membrane reactors with hydrogen separation
Wunsch, A.; Kant, P.; Mohr, M.; Haas-Santo, K.; Pfeifer, P.; Dittmeyer, R.
2018. Membranes, 8 (4), Art. Nr.: 107. doi:10.3390/membranes8040107
Wunsch, A.; Kant, P.; Mohr, M.; Haas-Santo, K.; Pfeifer, P.; Dittmeyer, R.
2018. Membranes, 8 (4), Art. Nr.: 107. doi:10.3390/membranes8040107
Experimental Investigation of the Gas/Liquid Phase Separation Using a Membrane-Based Micro Contactor
Dyrda, K. M.; Wilke, V.; Haas-Santo, K.; Dittmeyer, R.
2018. ChemEngineering, 2 (4), Article: 55. doi:10.3390/chemengineering2040055
Dyrda, K. M.; Wilke, V.; Haas-Santo, K.; Dittmeyer, R.
2018. ChemEngineering, 2 (4), Article: 55. doi:10.3390/chemengineering2040055
Carbon Dioxide Hydrogenation by Means of Plasmonic Resonance Activation in Silica Aerogel Media
Muñoz, S.; Navarrete, A.; Martín, Á.; Dittmeyer, R.; Cocero, M.
2018. Materials, 11 (11), Article: 2134. doi:10.3390/ma11112134
Muñoz, S.; Navarrete, A.; Martín, Á.; Dittmeyer, R.; Cocero, M.
2018. Materials, 11 (11), Article: 2134. doi:10.3390/ma11112134
Zuverlässiger Korrosionsschutz für mikroverfahrenstechnische Apparate = Reliable corrosion protection for micro process apparatuses
Gietzelt, T.; Messerschmidt, F.
2018. Galvanotechnik, 109 (4), 665–669
Gietzelt, T.; Messerschmidt, F.
2018. Galvanotechnik, 109 (4), 665–669
Korrosionsbeständige mikroverfahrenstechnische Apparate durch CVD-Beschichtung mit Tantal = Corrosion‐Resistant Microprocess Apparatuses by Means of CVD Coating with Tantalum
Gietzelt, T.; Kraut, M.; Messerschmidt, F.; Fürbeth, W.; Dittmeyer, R.
2018. Chemie - Ingenieur - Technik, 90 (8), 1037–1046. doi:10.1002/cite.201700168
Gietzelt, T.; Kraut, M.; Messerschmidt, F.; Fürbeth, W.; Dittmeyer, R.
2018. Chemie - Ingenieur - Technik, 90 (8), 1037–1046. doi:10.1002/cite.201700168
Enhanced sulfur tolerance of BaCe0.65Zr0.20Y0.15O3-δ-Ce0.85Gd0.15O2-δ composite for hydrogen separation membranes
Mortalò, C.; Rebollo, E.; Escolástico, S.; Deambrosis, S.; Haas-Santo, K.; Rancan, M.; Dittmeyer, R.; Armelao, L.; Fabrizio, M.
2018. Journal of membrane science, 564, 123–132. doi:10.1016/j.memsci.2018.07.015
Mortalò, C.; Rebollo, E.; Escolástico, S.; Deambrosis, S.; Haas-Santo, K.; Rancan, M.; Dittmeyer, R.; Armelao, L.; Fabrizio, M.
2018. Journal of membrane science, 564, 123–132. doi:10.1016/j.memsci.2018.07.015
Electrochemical multisensor system for monitoring hydroxide peroxide, hydrogen and oxygen in direct sythesis microreactors
Deschner, B.; Urban, S.; Weltin, A.; Flamm, H.; Kieninger, J.; Kraut, M.; Urban, G.; Dittmeyer, R.
2018. Sensors and actuators <Lausanne> / B, 273, 973–982. doi:10.1016/j.snb.2018.07.014
Deschner, B.; Urban, S.; Weltin, A.; Flamm, H.; Kieninger, J.; Kraut, M.; Urban, G.; Dittmeyer, R.
2018. Sensors and actuators <Lausanne> / B, 273, 973–982. doi:10.1016/j.snb.2018.07.014
Spectrophotometric determination of molybdenum-containing compounds in aqueous solutions
Spasova, B.; Küsters, C.; Stengel, B.; Kraut, M.; Brandner, J. J.
2018. Chemical engineering & technology, 41 (9), 1776–1782. doi:10.1002/ceat.201800038
Spasova, B.; Küsters, C.; Stengel, B.; Kraut, M.; Brandner, J. J.
2018. Chemical engineering & technology, 41 (9), 1776–1782. doi:10.1002/ceat.201800038
Custom-designed 3D-printed metallic fluid guiding elements for enhanced heat transfer at low pressure drop
Hansjosten, E.; Wenka, A.; Hensel, A.; Benzinger, W.; Klumpp, M.; Dittmeyer, R.
2018. Chemical engineering and processing, 130, 119–126. doi:10.1016/j.cep.2018.05.022
Hansjosten, E.; Wenka, A.; Hensel, A.; Benzinger, W.; Klumpp, M.; Dittmeyer, R.
2018. Chemical engineering and processing, 130, 119–126. doi:10.1016/j.cep.2018.05.022
Tailored metastable Ce–Zr oxides with highly distorted lattice oxygen for accelerating redox cycles
Zhang, Z.; Yu, J.; Zhang, J.; Ge, Q.; Xu, H.; Dallmann, F.; Dittmeyer, R.; Sun, J.
2018. Chemical science, 9 (13), 3386–3394. doi:10.1039/C8SC00729B
Zhang, Z.; Yu, J.; Zhang, J.; Ge, Q.; Xu, H.; Dallmann, F.; Dittmeyer, R.; Sun, J.
2018. Chemical science, 9 (13), 3386–3394. doi:10.1039/C8SC00729B
Chemical stability in H₂S and creep characterization of the mixed protonic conductor Nd WO
Escolástico, S.; Stournari, V.; Malzbender, J.; Haas-Santo, K.; Dittmeyer, R.; Serra, J. M.
2018. International journal of hydrogen energy, 43 (17), 8342–8354. doi:10.1016/j.ijhydene.2018.03.060
Escolástico, S.; Stournari, V.; Malzbender, J.; Haas-Santo, K.; Dittmeyer, R.; Serra, J. M.
2018. International journal of hydrogen energy, 43 (17), 8342–8354. doi:10.1016/j.ijhydene.2018.03.060
Impact of Scratch Depth on Vacuum Tightness of Diffusion Bonded Parts - Zum Einfluss der Kratzertiefe auf die Vakuumdichtheit diffusionsgeschweißter Bauteile
Gietzelt, T.; Toth, V.; Hüll, A.; Messerschmidt, F.; Thelen, R.
2018. Materialwissenschaft und Werkstofftechnik, 49 (2), 185–192. doi:10.1002/mawe.201700154
Gietzelt, T.; Toth, V.; Hüll, A.; Messerschmidt, F.; Thelen, R.
2018. Materialwissenschaft und Werkstofftechnik, 49 (2), 185–192. doi:10.1002/mawe.201700154