Publications of the Reichenberger Group

 

All publications of Technical Chemistry I

 

Reviewed Publications

 

  1. Xuelin Fan, Swen Zerebecki, Ran Du, RenØ Hübner, Galina Marzum, Guocan Jiang, Yue Hu, Stephan Barcikowki, Sven Reichenberger, A. Eychmüller, Promoting the Electrocatalytic Performance of Noble Metal Aerogelsby Ligand-Directed Modulation. Angewandte Chemie, 132, (2020), S. 2-8 (DOI: 10.1002/anie.201913079)

     

  2. Sebastian Kohsakowski, Felix Seiser, Jan-Philipp Wiederrecht, Sven Reichenberger, Thomas Vinnay, Stephan Barcikowski, Galina Marzun, Effective size separation of laser-generated, surfactant-free nanoparticles by continuouscentrifugation. Nanotechnology, 31, (2020), S. 1-11 (https://doi.org/10.1088/1361-6528/ab55bd)

     

  3. Amandeep Jindal, Kentaro Tashiro, Hiroaki Kotani, Toshiaki Takei, Sven Reichenberger, Galina Marzun, Stephan Barcikowski, Takahiko Kojima, Yohei Yamamoto, Excellent Oxygen Reduction Reaction Performance in SelfAssembled Amyloid-β/Platinum Nanoparticle Hybrids with Effective Platinum−Nitrogen Bond Formation. ACS Appl. Energy Mater., 2, (2019), S. 6536−6541(DOI: 10.1021/acsaem.9b01103)

     

  4. Sven Reichenberger, Galina Marzun, Stephan Barcikowski, Martin Muhler, Perspective of Surfactant‐Free Colloidal Nanoparticles in Heterogeneous Catalysis. ChemCatChem,11, (2019), S. 4489–4518 (DOI:10.1002/cctc.201900666)

     

  5. Labusch, M., Cunha, A. P. A., Wirtz, S. F., Cleve, E., Söffker, D., Barcikowski, S., Reichenberger, S., Acoustic emission control avoids fluence shifts caused by target runaway during laser synthesis of colloids. Applied Surface Science, 479, (2019), S. 887-895 (https://doi.org/10.1016/j.apsusc.2019.02.080)

     

  6. Haxhiaj, I.; Tigges, S.; Firla, D.; Zhang, X.; Hagemann, U.; Kondo, T.; Nakamura, J.; Marzun, G.*; Barcikowski, S. „Platinum nanoparticles supported on reduced graphene oxide prepared in situ by a continuous one-step laser process“ In Applied Surface Science, 469, (2019), S. 811-820 (https://doi.org/10.1016/j.apsusc.2018.10.257)

     

  7. Bertin, E.; Münzer, A.; Reichenberger, S.; Streubel, R.; Vinnay, T.; Wiggers, H.; Schulz,C.; Barcikowski, S.; Marzun, G. “Durability Study of Platinum Nanoparticles Supported on Gas-Phase Synthesized Graphene in Oxygen Reduction Reaction Condition”, Applied Surface Science, 467-468, (2019) 1181-1186. DOI: 10.1016/j.apsusc.2018.10.061

     

  8. Reichenberger, S., Lau, M., Haxhiaj, I., Barcikowski, S., Müller, A. M.; Mechanism of Laser-Induced Bulk and Surface Defect Generation in ZnO and TiO2 Nanoparticles: Effect on Photoelectrochemical Performance. ACS Applied Energy Materials, 1(10), (2018), 5366-5385.

     

  9. Kohsakowski, S.; Streubel, R.; Radev, I.; Peinecke, V.; Barcikowski, S.; Marzun, G. & Reichenberger, S. “First PEM fuel cell based on ligand-free, laser-generated platinum nanoparticles” Applied Surface Science, (2019), 467-468, S. 486 – 492. DOI: 10.1016/j.apsusc.2018.10.145

     

  10. Reichenberger, S., Lau, M., Haxhiaj, I., Barcikowski, S., Müller, A. M.; Mechanism of Laser-Induced Bulk and Surface Defect Generation in ZnO and TiO2 Nanoparticles: Effect on Photoelectrochemical Performance. ACS Applied Energy Materials, 1(10), (2018), S. 5366-5385. DOI: 10.1021/acsaem.8b00977

     

  11. Ziefuß, A. R., Reichenberger, S., Rehbock, C., Chakraborty, I., Gharib, M., Parak, W. J., & Barcikowski, S. Laser Fragmentation of Colloidal Gold Nanoparticles with High-Intensity Nanosecond Pulses is Driven by a Single-Step Fragmentation Mechanism with a Defined Educt Particle-Size Threshold. The Journal of Physical Chemistry C, 122(38), (2018), 22125-22136. DOI:10.1021/acs.jpcc.8b04374

     

  12. Davodi, F., Mühlhausen, E., Tavakkoli, M., Sainio, J., Jiang, H., Gökce, B., Marzun, G., & Kallio, T. (2018). Catalyst Support Effect on the Activity and Durability of Magnetic Nanoparticles as an Advanced Electrocatalyst for Full Water Splitting. ACS Applied Materials & Interfaces, DOI:10.1021/acsami.8b08830

     

  13. Wirtz, S. F., Cunha, A. P. A., Labusch, M., Marzun, G., Barcikowski, S., & Söffker, D.  “ Development of A Low-Cost FPGA-Based Measurement System for Real-Time Processing of Acoustic Emission Data: Proof of Concept Using Control of Pulsed Laser Ablation in Liquids.”Sensors (Basel, Switzerland), (2018), 18(6) DOI: 10.3390/s18061775.

     

  14. Dell'Aglio, M.; de Giacomo, A.; Kohsakowski, S.; Barcikowski, S.; Wagener, P.; Santagata, A.: Pulsed laser ablation of wire-shaped target in a thin water jet: effects of plasma features and bubble dynamics on the PLAL process. In: Journal of Physics D: Applied Physics 50 (2017), Nr. 18, S. 185204 (12pp). DOI: 10.1088/1361-6463/aa652a

     

  15. Mizutaru, T. ; Marzun, G.; Kohsakowski, S.; Barcikowski, S.; Hong, D.; Kotani, H.; Kojima, T.; Kondo, T.; Nakamura, J.; Yamamoto, Y.: Peptide Crosslinkers: Immobilization of Platinum Nanoparticles Highly Dispersed on Graphene Oxide Nanosheets with Enhanced Photocatalytic Activities. In: ACS Applied Materials & Interfaces 9 (2017), S. 9996-1000. DOI: 10.1021/acsami.6b16765

     

  16. Kohsakowski, S..; Santagata, A.; Dell'Aglio, M.; de Giacomo, A.; Barcikowski, S.; Wagener, P.; Goekce, B.: High productive and continuous nanoparticle fabrication by laser ablation of a wire-target in a liquid jet. In: Applied Surface Science 403 (2017), S. 487-499. DOI:10.1016/j.apsusc.2017.01.077

     

  17. Reich, S.; Schoenfeld, P.; Letzel, A.; Kohsakowski, S.; Olbinado, M.; Goekce, B.; Barcikowski, S.; Plech, A.: Fluence threshold behavior on ablation and bubble formation in pulsed laser ablation in liquids. In: Chemical Physics and Physical Chemistry (2017), S. 1-30. DOI:10.1002/cphc.201601198

     

  18. Marzun, G.; Boennemann, H.; Lehmann, C.; Spliethoff, B.; Weidenthaler, C.; Barcikowski, S.: Role of dissolved and molecular oxygen on Cu and PtCu alloy particle structure during laser ablation synthesis in liquids. In: Chemical Physics and Physical Chemistry 18 (2017), S. 1-11. 10.1002/cphc.201601315

     

  19. Marzun, G.; Levish, A.; Mackert, V.; Kallio, T.; Barcikowski, S.; Wagener, P.; Laser synthesis, structure and chemical properties of colloidal nickel-molybdenum nanoparticles for substitution of noble metals in heterogeneous catalysis.In: Journal of Colloid and Interface Science 489 (2017), S. 57-67. DOI:10.1016/j.jcis.2016.09.014

     

  20. Fischer, M.; Hormes, J.; Marzun, G.; Wagener, P.; Hagemann, U.; Barcikowski, S.: In situ investigations of laser-generated liquid-free platinum nanoparticles by x-ray absorption spectroscopy: How does the immediate enviroment influence the particle surface? Langmuir 32 (2016), Nr. 35, S. 8793-8802. DOI:10.1021/acs.langmuir.6b00685

     

  21. Zhang, X.; Ooki, W.; Kosaka, Y.; Okonogi, A.; Marzun, G.; Wagener, P.; Barcikowski, S.; Kondo, T.; Nakamura, J.: Effect of pH on the spontaneous synthesis of palladium nanoparticles on reduced graphene oxide. In: Applied Surface Science 389 (2016), S. 911-915. DOI:10.1016/j.apsusc.2016.08.014

     

  22. Kohsakowski, S.; Gökce, B.; Tanabe, R.; Wagener, P.; Plech, A.; Ito, Y.; Barcikowski, S.: Target geometry and rigidity determines laser-induced cavitation bubble transport and nanoparticle productivity – A high-speed videography study. In: Physical Chemistry Chemical Physics 18 (2016), S. 16585-16593. DOI:10.1039/C6CP01232A

     

  23. Dong, W.; Reichenberger, S.; Chu, S.; Weide, P.; Ruland, H.; Barcikowski, S.; Wagener, P.; Muhler, M.: The effect of the Au loading on the liquid-phase aerobic oxidation of ethanol over Au/TiO2 catalysts prepared by pulsed laser ablation. In: Journal of Catalysis 330 (2015), S. 497-506. DOI:10.1016/j.jcat.2015.07.033

     

  24. Mizutaru, T.; Sakurabe, T.; Nakayama, T.; Marzun, G.; Wagener, P.; Rehbock, C.; Barcikowski, S.; Murakami, K.; Fijita, J.; Ishii, N.; Yamamoto, Y.: Cysteine-containing oligopeptide β-sheets as redispersants for agglomerated metal nanoparticles. In: Journal of Meterials Chemistry A. 3 (2015), S. 17612-17619. DOI:10.1039/CSTA02098K

     

  25. Gu, S., Kaiser, J.; Marzun, G.; Ott, A.; Lu, Y.; Ballauff, M.; Zaccone, A.; Barcikowski, S.; Wagener, P.: Ligand-free Gold Nanoparticles as a Reference Material for Kinetic Modelling of Catalytic Reduction of 4-Nitrophenol. In Catalysis Letters 145 (5), (2015), S. 1105-1112. DOI: 10.1007/s10562-015-1514-7

     

  26. Marzun, G.; Nakamura, J.; Zhang, X.; Barcikowski, S.; Wagener, P.: Size control and supporting of palladium nanoparticles made by laser ablation in saline solution as a facile route to heterogeneous catalysts. In: Applied Surface Science 348 (2015), S. 75-84. DOI: 10.1016/j.apsusc.2015.01.108

     

  27. Schade, L.; Franzka, S.; Dzialkowski, K.; Hardt, S.; Wiggers, H.; Reichenberger, S.; Wagener, P.; Hartmann, N.: Resonant photothermal laser processing of hybrid  gold/titania nanoparticle films.  In: Applied Surface Science 336 (2015), S. 48-52. DOI:10.1016/j.apsusc.2014.09.118

     

  28. Marzun, G.; Streich, C.; Jendrzej, S.; Barcikowski, S.; Wagener, P.: Adsorption of colloidal platinum nanoparticles to supports: Charge transfer and effects of electrostatic and steric interactions. In: Langmuir 30 (2014), S. 11928-11936. DOI:10.1021/la502588g

     

  29. Lau, M.; Haxhiaj, I.; Wagener, P.;  Intartaglia, R.;  Brandi, F.;  Nakamura, J.; Barcikowski, S.: Ligand-free gold atom clusters adsorbed on graphene nano sheets generated by oxidative laser fragmentation in water. In: Chemical Physics Letters 610-611 (2014), S. 256-260. DOI:10.1016/j.cplett.2014.07.047

 

Journals

 

  1. Marzun, G.; Wagener, P. and Barcikowski, S.: Colloidal nanoparticles for heterogeneous catalysis. In SPIE Newsroom, (2015), DOI: 10.1117/2.1201501.005761, http://spie.org/x112375.xml

     

  2. Lau, M.; Gökce, B.; Marzun, G.; Rehbock, C.; Barcikowski, S. “Rapid nanointegration with laser-generated nanoparticles.” Lasers in Manufacturing 06/2015; Conference Proceedings.

     

 

Book Contribution

 

  1. Barcikowski, S.; Amendola, V.; Marzun, G.; Rehbock, C.; Reichenberger, S.; Zhang, D.; Gökce, B.: Handbook of Laser Synthesis of Colloids. In: DuEPublico (2016), S. 1-154. https://dx.doi.org/10.17185/duepublico/41087

     

 

Conference Talks

 

  1. Marzun, G.; Kohsakowski, S.; Reichenberger, S.; Barcikowski, S.; Scalable laser-synthesis of active and stable nanoparticles for heterogeneous catalysis. In: 8th NRW Nano Conference in Dortmund, 21 November 2018

     

  2. Kohsakowski, S.; Seiser, F.; Wiederrecht, J-P.; Vinnay, T.; Barcikowski, S.; Marzun, G.: A continuous and contamination-free process chain to a laser-synthesized heterogeneous catalyst. In: ACHEMA 2018, Frankfurt, Deutschland, 11.-15. Juni 2018. 

     

  3. Marzun, G.; Kohsakowski, S.; T. Vinnay, S.; Siebeneicher, M.; Barcikowski, S.; Prospects and challenges of laser-generated nanoparticles for industrial applications in catalysis. In: Advanced Nanoparticle Generation & Excitation by Lasers in Liquids (ANGEL), Lyon, Frankreich, 03.-07. Juni 2018

     

  4. Marzun, G.; Kohsakowski, S.; Reichenberger, S.; Siebeneicher, S.; Labusch, M.; Barcikowski, S.; Functional laser-generated nanoparticles for heterogeneous catalysis. In: CENIDE Konferenz, Bergisch Gladbach, Deutschland, 19.-21.Februar 2018

     

  5. Marzun, G.; Wagener, P.; Haxhiaj, I.; Kohsakowski, S.; Reichenberger, S.; Becker, R.; Bärsch, N.; Bönnemann, H.; Du, K.; Kiemel, R.; Schlögl, R.; Barcikowski, S.: „Functionality of ligand-free alloy nanoparticles for heterogeneous catalysis made by scalable laser synthesis.” In: EUROPACAT 2017, Florence, Italy, 27.-31. August 2017

     

  6. Marzun, G.; Wagener, P.; Haxhiaj, I.; Kohsakowski, S.; Reichenberger, S.; Becker, R.; Bärsch, N.; Bönnemann, H.; Du, K.; Kiemel, R.; Schlögl, R.; Barcikowski, S.: „Functionality of ligand-free alloy nanoparticles for heterogeneous catalysis made by scalable laser synthesis“ In: North American Catalysis Society Meeting (NAM25), Denver, USA, 4-9.Juni 2017

     

  7. Marzun, G.; Wagener, P.; Haxhiaj, I.; Kohsakowski, S.; Reichenberger, S.; Becker, R.; Bärsch, N.; Bönnemann, H.; Du, K.; Kiemel, R.; Schlögl, R.; Barcikowski, S.: Functionality of ligand-free alloy nanoparticles for heterogeneous catalysis made by scalable laser synthesis. In: 50. Jahrestreffen Deutscher Katalytiker, Weimar, Germany, 15.-17. March 2017

     

  8. Marzun, G.; Wagener, P.; Levish, A.; Mackert, V.; Barcikowski, S.;: Nickel-molybdenum nanoparticles for the substitution of platinum in electrocatalysis. In: ANGEL Conference 2016. Essen, Deutschland, 9. - 12. Mai 2016

     

  9. Haxihiaj I.; Marzun, G.; Nakamura, J.; Zhang, X.; Wagener, P.; Barcikowski, S.: Size controlled and stable ligand-free palladium nanoparticles for heterogenous catalysis. In: Nanosmats 2015. Manchester, UK, 13. – 16. September 2015

     

  10. Reichenberger, S.; Dong, W.; Chu, S.; Weide, P.; Ruland, H.; Muhler, M.; Barcikoski, S.; Wagener, P.: Supporting of ligand-free gold nanoparticles on titania and its catalytic activity in liquid-phase oxidation of ethanol. In: Nanosmats 2015. Manchester, UK, 13. – 16. September 2015

     

  11. Kohsakowski, S.; Marzun, G.; Streich, C.; Wagener, P.; Barcikowski, S.: Preparation of heterogenous catalysts for photocataytic water splitting by colloidal nanoparicle adsorption - impact of electrostatic interaction. In: Nanosmats 2015. Manchester, UK, 13. – 16. September 2015

     

  12. Reichenberger, S.; Dong, W.; Chu, S.; Weide, P.; Ruland, H.; Muhler, M.; Barcikoski, S.; Wagener, P.: Supporting of ligand-free gold nanoparticles on titania and its catalytic activity in liquid-phase oxidation of ethanol. In: Bunsentagung – 114th general assembly of the german Bunsen society for physical chemistry. Bochum, Deutschland, 14. – 16. Mai 2015

     

  13. Marzun, G.; Levish, A.; Mackert, V.; Barcikowski, S.; Wagener, P.: Laser-basierte Synthese und (elektro-) chemische Eigenschaften von Nickel-Molybdän-Nanopartikeln. In: ProcessNet-Jahrestagung und 31. DECHEMA-Jahrestagung der Biotechnologen 2014. Aachen, Deutschland, 30. September - 02. Oktober 2014, Chemie Ingenieur Technik 86 (2014), S. 1546

     

  14. Marzun, G.; Barcikowski, S.; Wagener, P.: Laser-generated platinum nanoparticles for photocatalytic water splitting. In: The 15th International symposium on laser precision microfabrication (LPM) Vilnius, Litauen, 17.-20 Juni 2014

 

Conference Poster

  

  1. Kohsakowski, S..; Lange, T.; Cibura, N.; Marzun, G.; Strunk, J.; Barcikowski, S.: Continuous and contamination-free process chain to a laser-synthesized heterogeneous catalyst In: 1st IMPRS – RECHARGE SCIENTIFIC SYMPOSIUM 2017 Catalysis for Sustainable Chemical Energy Conversion (CSCEC), Duisburg, Deutschland, 17. - 21. September

     

  2. Kohsakowski, S..; Lange, T.; Cibura, N.; Marzun, G.; Strunk, J.; Barcikowski, S.: Composition control of pure MnO nanoparticles for photocatalytic water oxidation by pulsed laser fragmentation of MnO micro powder. In: 50. Jahrestreffen Deutscher Katalytiker, Weimar, Deutschland, 15. – 17. März 2017

     

  3. Marzun, G..; Wagener, P.; Barcikowski, S.: „How to fabricate a high quality heterogeneous catalyst by laser ablation” In: Solar Fuels16, Berlin, Germany, 04.-06. September 2016

     

  4. Marzun, G.;  Levish, A.; Mackert, V.; Kallio, T.; Wagener, P.; Barcikowski, S.;: Substitution of platinum with laser-generated nickel-molybdenum nanoparticles in electrocatalysis. In: 16th International Congress on Catalysis (ICC 2016), Peking, China, 03.-08. Juli 2016

     

  5. Kohsakowski, S.; Marzun, G. ; Barcikowski, S.: Preparation of pure and process stable heterogeneous catalysts for photocatalytic water splitting by electrostatic colloidal nanoparticle adsorption. In: 16th International Congress on Catalysis (ICC 2016), Peking, China, 03.-08. Juli 2016

     

  6. Haxhiaj, I.Kohsakowski, S.; Reichenberger, S.; Marzun, G.; Barcikowski, S.: Fabrication of heterogeneous catalysts by a laser technique. In: Materials Chain: From Discovery to Production. Konferenz Zentrum Ruhr-Universitaet Bochum, Bochum, 30. Mai - 01. Juni 2016

     

  7. Kohsakowski, S.; Marzun, G.; Barcikowski, S.: Preparation of heterogeneous catalysts for photocatalytic water splitting by colloidal NP adsorption - impact of electrostatic interaction. In: 49. Jahrestreffen Deutscher Katalytiker, Weimar, Deutschland, 16.-18. März 2016

     

  8. Marzun, G.; Wagener, P.; Levish, A.; Mackert, V.; Barcikowski, S.;: Simple approach for the synthesis of promising nickel-molybdenum HER catalysts. In: 49. Jahrestreffen Deutscher Katalytiker, Weimar, Deutschland, 16.-18. März 2016

     

  9. Reichenberger, S.; Wagener, P.; Dong, W.; Weide, P.; Ruland, H.; Muhler, M.; Barcikoski, S.;:Enhanced catalytic activity and stability of laser generated ligandfree gold nanoparticles during selective ethanol oxidation reaction.  In: 49. Jahrestreffen Deutscher Katalytiker, Weimar, Deutschland, 16.-18. März 2016

     

  10. Reichenberger, S.; Wagener, P.; Cleve, E.; Barcikowski, S.: Deposition of laser generated ligand-free gold nanoparticles onto high surface silica using a supercritical deposition process. In: Nanosmats 2015. Manchester, UK, 13. – 16. September 2015

     

  11. Marzun, G.; Kohsakowski, S.; Wagener, P.; Barcikowski, S.: Laser-based synthesis of a heterogenous nickel catalyst: Effect of electrostatic interaction on colloidal nanoparticle depostition. In: EFCD2015, Montpelier, France, 13. – 16. September 2015

     

  12. Marzun, G.; Nakamura, J.; Zhang, X.; Barcikowski, S., Wagener, P.: Manufacturing a photo- and electrocatalyst by supporting of size-controlled and laser-generated palladium nanoparticles in electrolytes. In: CENIDE-CNMM-TIMS Joint Symposium on Nanoscience and –technology. Duisburg, Deutschland, 16. – 17. März 2015

     

  13. Marzun, G.; Streich, C.; Jendrzej, S.; Barcikowski, S.; Wagener, P.: Laser-based synthesis of size-controlled and ligand-free nanoparticles for heterogeneous catalysts. In: 48. Jahrestreffen Deutscher Katalytiker, Weimar, Deutschland, 11.-13. März 2015

     

  14. Marzun, G.; Streich, C.; Jendrzej, S.; Barcikowski, S.; Wagener, P.: Preparation of heterogeneous catalysts by colloidal nanoparticle adsorption: impact of electrostatic and steric interaction. In: Gordon Research Conference „Nanomaterials for Applications in Energy Technology” Ventura, USA, 22.-27. Februar 2015

     

  15. Haxhiaj, I.; Lau, M.; Nakamura, J.; Wagener, P.; Barcikowski, S.: Oxidative laser fragmentation for ligand-free ultra-small gold atom clusters and their deposition on graphene nanosheets. In: Gordon Research Conference „Nanomaterials for Applications in Energy Technology”, Ventura, USA, 22.-27. Februar 2015  

     

  16. Reichenberger, S.; Wagener, P.; Cleve, E.; Barcikowski, S.: Supercritical deposition of ligand-free nanoparticles to mesoporous materials; Combining two sustainable technologies for the high purity production of heterogeneous catalysts. In: Gordon Research Conference „Nanomaterials for Applications in Energy Technology”, Ventura, USA, 22.-27. Februar 2015

     

  17. Haxhiaj, I.; Lau, M.; Nakamura, J.; Wagener, P.; Barcikowski, S.: Ultra-small ligand-free gold atom clusters generated by oxidative laser fragmentation in water and supported on graphene nanosheets. In: 6. NRW Nano-Konferenz, Dortmund, Deutschland, 1.-2. Dezember 2014 

     

  18. Haxhiaj, I.; Lau, M.; Intartaglia, R.; Brandi, F.; Nakamura, J.; Barcikowski, S.: Oxidative laser fragmentation for ligand-free non-plasmonic gold atom clusters and their deposition on graphene nanosheets. In: ANGEL-Conference, Matsuyama, Japan, 19.-21. Mai 2014

     

  19. Kohsakowski, S.; Santagata, A.; Dell'Aglio, M.; DeGiacoma, A.; Barcikowski, S.; Wagener, P.: Non-costeffective parameters of laser-assisted nanoparticle synthesis for scale-up. In: ANGEL-Conference, Matsuyama, Japan, 19.-21. Mai 2014

     

  20. Reichenberger, S.;  Barcikowski, S.; Cleve, E.:  Nanopartikel für heterogene Katalysatoren; Nutzung der Transporteigenschaften überkritischer Fluide für die Deposition von lasergenerierten Nanopartikeln in porösen Materialien. In:  Brightlas – Brilliante Diodenlaser für neue Anwendungen in der Lasermaterialbearbeitung, Berlin, Deutschland 18.März 2014

     

  21. Marzun, G.; Barcikowski, S.; Wagener, P.: Laser-based synthesis of size-controlled and ligand-free nanoparticles for heterogeneous catalysts In: Jahresveranstaltung Stiftung Industrieforschung, Berlin, Deutschland, 07. November 2013