Folgen
Dirk Ziegenbalg
Dirk Ziegenbalg
Professor of Chemical Engineering, Ulm University
Bestätigte E-Mail-Adresse bei uni-ulm.de - Startseite
Titel
Zitiert von
Zitiert von
Jahr
Light Sources for Photochemical Processes–Estimation of Technological Potentials
M Sender, D Ziegenbalg
Chemie Ingenieur Technik 89, 1159--1173, 2017
712017
Use of ‘smart interfaces’ to improve the liquid-sided mass transport in a falling film microreactor
D Ziegenbalg, P Löb, M Al-Rawashdeh, D Kralisch, V Hessel, F Schönfeld
Chemical Engineering Science 65 (11), 3557-3566, 2010
462010
Investigation of Photon Fluxes within Microstructured Photoreactors Revealing Great Optimization Potentials
D Ziegenbalg, B Wriedt, G Kreisel, D Kralisch
Chemical Engineering & Technology 39 (1), 123-134, 2016
422016
Methanol oxidation reaction on core-shell structured Ruthenium-Palladium nanoparticles: Relationship between structure and electrochemical behavior
M Kübler, T Jurzinsky, D Ziegenbalg, C Cremers
Journal of Power Sources 375, 320-334, 2018
382018
Optimization of a Split and Recombine Micromixer by Improved Exploitation of Secondary Flows
DZ P. Hermann, J. Timmermann, M. Hoffmann, M. Schlüter, C. Hofmann, P. Löb
Chemical Engineering Journal, 2017
36*2017
OLEDs as prospective light sources for microstructured photoreactors
D Ziegenbalg, G Kreisel, D Weiß, D Kralisch
Photochemical & Photobiological Sciences 13 (7), 1005-1015, 2014
362014
Microstructure-based intensification of a falling film microreactor through optimal film setting with realistic profiles and in-channel induced mixing
M Al-Rawashdeh, A Cantu-Perez, D Ziegenbalg, P Löb, A Gavriilidis, ...
Chemical Engineering Journal 179, 318-329, 2012
332012
Common pitfalls in chemical actinometry
B Wriedt, D Ziegenbalg
Journal of Flow Chemistry 10 (1), 295-306, 2020
232020
Rapid Prototyping for Photochemical Reaction Engineering
F Guba, Ü Tastan, K Gugeler, M Buntrock, T Rommel, D Ziegenbalg
Chemie Ingenieur Technik 91 (1-2), 17-29, 2019
222019
Experimental Determination of Photon Fluxes in Multilayer Capillary Photoreactors
B Wriedt, D Kowalczyk, D. & Ziegenbalg
ChemPhotoChem, 2018
212018
Getting the Most out of Solar Irradiation: Efficient Use of Polychromatic Light for Water Splitting
Ü Taştan, D Ziegenbalg
Chemistry-A European Journal 22 (52), 18824-18832, 2016
162016
Process Intensification - An Unbroken Trend in Chemical Engineering
T Grützner, R Ziegenbalg, D. & Güttel
Chemie Ingenieur Technik, 2018
142018
Evaluation of different micromixers by CFD simulations for the anionic polymerisation of styrene
D Ziegenbalg, C Kompter, F Schönfeld, D Kralisch
Green Processing and Synthesis 1 (2), 211-214, 2012
132012
Photocatalytic Nitrogen Reduction: Challenging Materials with Reaction Engineering
D Ziegenbalg, J Zander, R Marschall
ChemPhotoChem 5 (9), 792-807, 2021
112021
Impact of the Type of Reactor and the Catalytic Conditions on the Photocatalytic Production of Hydrogen Using a Fully Noble‐Metal‐Free System
I Reim, B Wriedt, Ü Tastan, D Ziegenbalg, M Karnahl
ChemistrySelect 3 (11), 2905-2911, 2018
102018
Application Limits of the Ferrioxalate Actinometer
B Wriedt, D Ziegenbalg
ChemRxiv, 2021
82021
1, 7, 9, 10‐Tetrasubstituted PMIs Accessible through Decarboxylative Bromination: Synthesis, Characterization, Photophysical Studies, and Hydrogen Evolution Catalysis
D Costabel, A Skabeev, A Nabiyan, Y Luo, JB Max, A Rajagopal, ...
Chemistry–A European Journal 27 (12), 4081-4088, 2021
82021
Radiometric Measurement Techniques for in-Depth Characterization of Photoreactors-Part 1: 2 Dimensional Radiometry
M Sender, B Wriedt, D Ziegenbalg
Reaction Chemistry & Engineering, 2021
62021
Photochlorination of toluene–the thin line between intensification and selectivity. Part 1: intensification and effect of operation conditions
Ü Taştan, D Ziegenbalg
Reaction Chemistry & Engineering 6 (1), 82-89, 2021
52021
Photocatalytic CO2 reduction by Cr-substituted Ba2 (In2-xCrx) O5·(H2O) δ (0.04≤ x≤ 0.60)
S Yoon, M Gaul, S Sharma, K Son, H Hagemann, D Ziegenbalg, ...
Solid State Sciences 78, 22-29, 2018
52018
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20