Folgen
Reinhard Schomaecker
Reinhard Schomaecker
Professor of Chemical Engineering
Bestätigte E-Mail-Adresse bei tu-berlin.de
Titel
Zitiert von
Zitiert von
Jahr
Diacetylene functionalized covalent organic framework (COF) for photocatalytic hydrogen generation
P Pachfule, A Acharjya, J Roeser, T Langenhahn, M Schwarze, ...
Journal of the American Chemical Society 140 (4), 1423-1427, 2018
7662018
Microemulsions in technical processes
MJ Schwuger, K Stickdorn, R Schomaecker
Chemical reviews 95 (4), 849-864, 1995
6211995
Dilute lamellar and L 3 phases in the binary water–C 12 E 5 system
R Strey, R Schomäcker, D Roux, F Nallet, U Olsson
Journal of the Chemical Society, Faraday Transactions 86 (12), 2253-2261, 1990
5801990
Critical literature review of the kinetics for the oxidative dehydrogenation of propane over well-defined supported vanadium oxide catalysts
CA Carrero, R Schlögl, IE Wachs, R Schomaecker
ACS catalysis 4 (10), 3357-3380, 2014
5752014
CO formation/selectivity for steam reforming of methanol with a commercial CuO/ZnO/Al2O3 catalyst
H Purnama, T Ressler, RE Jentoft, H Soerijanto, R Schlögl, ...
Applied Catalysis A: General 259 (1), 83-94, 2004
3932004
General patterns of the phase behavior of mixtures of water, nonpolar solvents, amphiphiles, and electrolytes. 1
M Kahlweit, R Strey, P Firman, D Haase, J Jen, R Schomäcker
Langmuir 4 (3), 499-511, 1988
3631988
Mn–Na2WO4/SiO2 as catalyst for the oxidative coupling of methane. What is really known?
S Arndt, T Otremba, U Simon, M Yildiz, H Schubert, R Schomäcker
Applied Catalysis A: General 425, 53-61, 2012
2992012
A critical assessment of Li/MgO-based catalysts for the oxidative coupling of methane
S Arndt, G Laugel, S Levchenko, R Horn, M Baerns, M Scheffler, ...
Catalysis Reviews 53 (4), 424-514, 2011
2872011
Protonated Imine‐Linked Covalent Organic Frameworks for Photocatalytic Hydrogen Evolution
J Yang, A Acharjya, MY Ye, J Rabeah, S Li, Z Kochovski, S Youk, ...
Angewandte Chemie International Edition 60 (36), 19797-19803, 2021
2402021
Fast tuning of covalent triazine frameworks for photocatalytic hydrogen evolution
S Kuecken, A Acharjya, L Zhi, M Schwarze, R Schomäcker, A Thomas
Chemical Communications 53 (43), 5854-5857, 2017
2362017
General patterns of the phase behavior of mixtures of water, nonpolar solvents, amphiphiles, and electrolytes. 2
M Kahlweit, R Strey, R Schomäcker, D Haase
Langmuir 5 (2), 305-315, 1989
2291989
Steam reforming of methanol over copper-containing catalysts: Influence of support material on microkinetics
B Frank, FC Jentoft, H Soerijanto, J Kröhnert, R Schlögl, R Schomäcker
Journal of Catalysis 246 (1), 177-192, 2007
2202007
Techno-Economic Assessment Guidelines for CO2 Utilization
AW Zimmermann, J Wunderlich, L Müller, GA Buchner, A Marxen, ...
Frontiers in Energy Research 8, 5, 2020
2122020
Steam reforming of methanol over Cu/ZrO2/CeO2 catalysts: a kinetic study
A Mastalir, B Frank, A Szizybalski, H Soerijanto, A Deshpande, ...
Journal of Catalysis 230 (2), 464-475, 2005
1832005
Partial oxidation of ethanol on vanadia catalysts on supporting oxides with different redox properties compared to propane
B Beck, M Harth, NG Hamilton, C Carrero, JJ Uhlrich, A Trunschke, ...
Journal of Catalysis 296, 120-131, 2012
1812012
Thermoregulated liquid/liquid catalyst separation and recycling
A Behr, G Henze, R Schomaecker
Advanced Synthesis & Catalysis 348 (12‐13), 1485-1495, 2006
1732006
Analyses of polysaccharide fouling mechanisms during crossflow membrane filtration
S Nataraj, R Schomäcker, M Kraume, IM Mishra, A Drews
Journal of Membrane Science 308 (1-2), 152-161, 2008
1722008
Oxidative dehydrogenation of propane over low-loaded vanadia catalysts: Impact of the support material on kinetics and selectivity
A Dinse, B Frank, C Hess, D Habel, R Schomäcker
Journal of Molecular Catalysis A: Chemical 289 (1-2), 28-37, 2008
1642008
Oxidative coupling of methane—A complex surface/gas phase mechanism with strong impact on the reaction engineering
B Beck, V Fleischer, S Arndt, MG Hevia, A Urakawa, P Hugo, ...
Catalysis Today 228, 212-218, 2014
1592014
Liquid− liquid phase equilibrium in glycerol− methanol− methyl oleate and glycerol− monoolein− methyl oleate ternary systems
DS Negi, F Sobotka, T Kimmel, G Wozny, R Schomäcker
Industrial & engineering chemistry research 45 (10), 3693-3696, 2006
1502006
Das System kann den Vorgang jetzt nicht ausführen. Versuchen Sie es später erneut.
Artikel 1–20