Publikationen – Dr. David Linke

20.Sokolov S, Stoyanova M, Rodemerck U, Linke D, Kondratenko EV. CATALYSIS SCIENCE & TECHNOLOGY, 2014, 4, 1323-1332. Effect of support on selectivity and on-stream stability of surface VOx species in non-oxidative propane dehydrogenation.
19.Karimova U, Kasimov AA, Rodemerck U, Kondratenko VA, Sokolov S, Linke D, and Kondratenko EV. DGMK-Tagungsbericht, 2014, 3, 237-242. Partial oxidation of methane to synthesis gas over supported well-defined Pt, Rh, and Ru nanoparticles: activity, selectivity, and reaction mechanism.
18.Hahn T, Kondratenko EV, Linke D. CHEMICAL COMMUNICATIONS, 2014, 50, 9060-9063. The effect of supported MoOX structures on the reaction pathways of propene formation in the metathesis of ethylene and 2-butene.
17.Hahn T, Bentrup U, Armbruester M, Kondratenko EV, Linke D. CHEMCATCHEM, 2014, 6, 1664-1672. The Enhancing Effect of Brønsted Acidity of Supported MoOx Species on their Activity and Selectivity in Ethylene/trans-2-Butene Metathesis.
16.Ahlers SJ, Bentrup U, Linke D, and Kondratenko EV. CHEMSUSCHEM, 2014, 7, 2631-2639. An Innovative Approach for Highly Selective Direct Conversion of CO2 into Propanol using C2H4 and H2.
15.S. Sokolov, M. Stoyanova, U. Rodemerck, D. Linke, E. V. Kondratenko Journal of Catalysis 2012, 293, 67-75. Comparative Study of Propane Dehydrogenation over V-, Cr-, and Pt-Based Catalysts: Time On-Stream Behavior and Origins of Deactivation.
14.D. Montolio-Rodriguez, P. Linke, D. Linke Chemical Product and Process Modeling 2012, 7, 1-25. Multi-level Reactor Optimisation in the Conceptual Design of Processes with Heterogeneous Catalytic Reactors.
13.M. Holeňa, D. Linke, L. Bajer in Gecco 2012- Genetic and Evolutionary Computation Conference edited by Soule T, ACM, New York, 2012, 1095-1102. Surrogate Modeling in the Evolutionary Optimization of Catalytic Materials.
12.M.J.G. Fait, M. Schneider, J. Tilgner, A. Bjeoumikhov, D. Linke, U. Rodemerck Chemical Engineering Technology 2011, 34, 1835-1839. Design of an X-Ray Powder Diffraction Probe for Multi-Channel Application: Proof of Principle.
11.

M. Holena, D. Linke, U. Rodemerck, Catalysis Today 2011, 159, 84-95. Generator Approach to Evolutionary Optimization of Catalysts and its Integration with Surrogate Modeling.

10.

E. V. Kondratenko, D. Linke in Chemie über den Wolken … und darunter edited by Zellner R, WILEY-VCH, Weinheim, 2011, 71-75. Many things begin with methane.

9.

M. Holena, D. Linke, U. Rodemerck, L. Bajer in Aanalytical and Stochastic Modeling Techniques and Applications, Lecture Notes in Computer Science Vol. 6148, K. Al-Begain, D Fiems, W. Knottenbelt (eds.), Springer Verlag Berlin 2010, 351-366. Neutral Networks as Surrogate Models for Measurements in Optimization Algorithms.

8.

M. Holena, D. Linke, U. Rodemerck in Seal, Lecture Notes in Computer Science Vol. 6457, K Deb et al. (eds.), Springer Verlag Berlin Heidelberg 2010, 220-229. Evolutionary Optimization of Catalysts Assisted by Neutral-Network Learning.

7.

D. Montolio-Rodriguez, P. Linke, D. Linke, M. Z. Stijepovic,  Chemical Engineering Journal  2010, 163, 438-449. Optimal Conceptual Design of Processes with Heterogeneous Catalytic Reactors.

6.

M. J. G. Fait, R. Abdallah, D. Linke, E. V. Kondratenko, U. Rodemerck, Catalysis Today 2009, 142, 196-201. A Novel Multi-Channel Reactor System Combined with Operando UV/VIS Diffuse Refelctance Spectroscopy: Proof of Principle.

5.

U. Rodemerck, D. Linke in Synthesis of Solid Catalysts 2009, 217-240. (Editor KP de Jong) Wiley-VCH. High-Throughput Experimentation.

4.

P. Linke, D. Linke, Advances In Gas Processing 2009, 1, 193-201. Towards a framework for systematic innovation of catalytic gas conversion processes.

3.

D. Montolio-Rodriguez, D. Linke, P. Linke, Computer Aided Chemical Engineering 2009, 26, 489-494. Multi-scale evolution of optimal process designs for the production of acetic acid via ethane oxidation.

2.

M. Holeňa, D. Linke, N. Steinfeldt in Neural Information Processing, 2009, 131-140. Berlin: Springer (Editors: Leung, C.; Lee M.; Chan, J.) Boosted Neural Networks in Evolutionary Computation.

1.

M. Holeňa, D. Linke in Proceedings Of 2009 8th Ieee International Conference On Cybernetic Intelligent Systems 2009, 92-97 Los Alamitos : IEEE Computer Society, (Ed. Oussalah M.; Amavasai, B.; Siddique, N.) Evolutionary Computation System for Problem-Tailored Genetic Optimization of Catalytic Materials.

19.M. Stoyanova, E. Kondratenko, S. Sokolov, U. Rodemerck, D. Linke, T. Otroshchenko; Verfahren zur Herstellung von Olefinen sowie Katalysator; DE 102015112612.5 (31.07.2015)
18.M. Stoyanova, E. Kondratenko, D. Linke, E. Ernst, R. Dicke; Process for obtaining Olefins by Metathesis; EP 14150042.1 (02.01.2014)
17.M. Stoyanova, E. Kondratenko, D. Linke, E. Ernst, R. Dicke; Process for Olefin production by Metathesis and reactor System therefor; EP13198981.6 (20.12.2013)
16.

E. Ernst, D. Linke, M. Stoyanova, E. Kondratenko; Catalyst bed configuration for olefin conversion and process for obtaining olefins; EP 13192901.0 (14.11.2013)
15.M. Stoyanova, E. Kondratenko, D. Linke, E. Ernst; Catalyst and process for Olefin Metathesis reaction; EP 13188709.3 (15.10.2013)
14.

 E. Ernst, M. Stoyanova, E. Kondratenko, D. Linke; Process for Olefin production by Metathesis and reactor System therefore; EP 13184369.0 (13.09.2013)

13.

E. Ernst, M. Stoyanova, E. Kondratenko, D. Linke; Improved catalyst bed configuration for olefin production; EP 13177610.6 (23.07.2013)
12.N. Hazel, D. Linke; Process for treating zeolite catalysts; EP 13152102.3 (21.01.2013)
11.U. Rodemerck, M. Marschall, D. Linke, M. Holena, A. Barkschat, M. Baerns, E. Wagner, Q. Schmejkal; Verfahren zur Herstellung von Kohlenwasserstoffen aus Kohlendioxid und Wasserstoff und ein in dem Verfahren verwendbarer Katalysator; EP 2684936 (13.07.2012); WO 2014009534  01/2017
10.S. Sokolov, U. Rodemerck, E. Kondratenko, M. Stoyanova, D. Linke; Verfahren zur Herstellung von Olefinen sowie Katalysatoren; DE 102012206543.1 (20.04.2012)
09.D. Linke, U. Rodemerck, Process for the manufacture of a catalyst and oxydehydrogenation process using such catalyst; EP 20110178872 (25.08.2011)
08.

U. Rodemerck, E. Kondratenko, D. Linke; Process for preparaing silicoaluminophosphate (SAPO) molecular sieves, catalysts containing said sieves and catalytic dehydration processes using said catalyst; EP 07013300.4 (06.07.2007

07.

D. Linke, U. Rodemerck, M. Stoyanova, Max, U. Dingerdissen; Testreaktor zur parallelen Testung von Feststoffkatalysatoren für Oxidationsreaktion in Gasphase; DE 102007031415 (03.07.2007)

06.

D. Linke, U. Rodemerck, S. Kolf, U. Dingerdissen, D. Herein; Vanadiumhaltige Mischoxide des Cs(W,Nb)5O14-Strukturtyps, DE 102006018886.1 (18.04.2006), WO 2007118871

05.N. Dropka, D. Linke, D. Ryan; Oxidation catalyst; US 60/771,157 (07.02.2006)
04.

D. Linke, U. Rodemerck, S. Kolf, U. Dingerdissen, D. Herein; Verfahren zur Herstellung von Olefinen, Aldehyden und Carbonsäuren durch Oxidation von Alkanen; DE 102006018885.3, (18.01.2006), WO 2007118870

03.A. Rokicki, D. Linke, S. Blankenship, J. Boyer; Hydrogenation Catalyst; US 60,645431; WO/2006/078926 (20.01.2005)
02.D. Wolf, D. Linke, M. Baerns, N. Dropka, G. Grubert, M. Langpape; Verfahren zur Bewertung der Leistungsfähigkeit von Feststoffkatalysatoren für ein Reaktionsnetzwerk; DE 10101118.0 (05.01.2001)
01.U. Dingerdissen, M. Baerns, D. Wolf, D. Linke, S. Zeyss; Verfahren zur Herstellung von Essigsäure; DE 10194783.6 (17.10.2001)