Dieses Bild zeigt Klemm

Herr Prof. Dr.-Ing.

Elias Klemm

Institutsleiter
Institut für Technische Chemie

Kontakt

+49 711 685-65590

Pfaffenwaldring 55
70569  Stuttgart
Deutschland
Raum: 0.857

Sprechstunde

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:
  1. 2017

    1. S. Lang, M. Benz, U. Obenaus, R. Himmelmann, M. Scheibe, E. Klemm, J. Weitkamp, and M. Hunger, “Mechanisms of the AlCl3 modification of siliceous microporous and mesoporous catalysts investigated by multi-nuclear solid-state NMR,” Topics in catalysis, 2017.
    2. T. Montsch, M. Heuchel, Y. Traa, E. Klemm, and C. Stubenrauch, “Selective hydrogenation of 3-Hexyn-1-ol with Pd nanoparticles synthesized via microemulsions,” Applied catalysis. A, General, vol. 539, pp. 19–28, 2017.
    3. E. von Harbou, O. Wachsen, E. Klemm, and C. Dreiser, “Technische Chemie 2016,” Nachrichten aus der Chemie, vol. 65, no. 3, pp. 367–374, 2017.
    4. P. Eversfield, W. Liu, and E. Klemm, “Effect of potassium on the physicochemical and catalytic characteristics of V2O5/TiO2 catalysts in o-xylene partial oxidation to phthalic anhydride,” Catalysis letters, vol. 147, no. 3, pp. 185–791, 2017.
    5. G. Emig and E. Klemm, Chemische Reaktionstechnik, 6th ed. Berlin: Springer Vieweg, 2017.
  2. 2016

    1. E. Balcazar, F. Neher, C. Liebner, H. Hieronymus, and E. Klemm, “Determination of ignition temperature in micro reactors,” Chemical engineering transactions, vol. 48, pp. 547–552, 2016.
    2. M. Wichert, R. Zapf, A. Ziogas, G. Kolb, and E. Klemm, “Kinetic investigations of the steam reforming of methanol over a   Pt/In2O3/Al2O3 catalyst in microchannels,” CHEMICAL ENGINEERING SCIENCE, vol. 155, pp. 201–209, 2016.
    3. R. Otterstaetter, H.-W. Zanthoff, and E. Klemm, “Three-Phase Heterogeneously Catalyzed Oxidative Esterification -   Relevance of Oxygen Mass Transport,” CHEMICAL ENGINEERING & TECHNOLOGY, vol. 39, no. 11, SI, pp. 2029–2034, 2016.
    4. D. Kopljar, N. Wagner, and E. Klemm, “Transferring Electrochemical CO2 Reduction from Semi-Batch into   Continuous Operation Mode Using Gas Diffusion Electrodes,” CHEMICAL ENGINEERING & TECHNOLOGY, vol. 39, no. 11, SI, pp. 2042–2050, 2016.
    5. P. D. Hermann, T. Cents, E. Klemm, and D. Ziegenbalg, “Simulation Study of the Ethoxylation of Octanol in a Microstructured   Reactor,” INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, vol. 55, no. 49, pp. 12675–12686, 2016.
    6. M. Dyballa, P. Becker, D. Trefz, E. Klemm, A. Fischer, H. Jakob, and M. Hunger, “Parameters influencing the selectivity to propene in the MTO conversion   on 10-ring zeolites: directly synthesized zeolites ZSM-5, ZSM-11, and   ZSM-22,” APPLIED CATALYSIS A-GENERAL, vol. 510, pp. 233–243, 2016.
    7. M. Dyballa, U. Obenaus, M. Rosenberger, A. Fischer, H. Jakob, E. Klemm, and M. Hunger, “Post-synthetic improvement of H-ZSM-22 zeolites for the   methanol-to-olefin conversion,” MICROPOROUS AND MESOPOROUS MATERIALS, vol. 233, pp. 26–30, 2016.
    8. M. Aimer, E. Klemm, B. Langanke, H. Gehrke, and C. Stubenrauch, “Reactive Extraction of Lactic Acid by Using Tri-n-octylamine: Structure   of the Ionic Phase,” CHEMISTRY-A EUROPEAN JOURNAL, vol. 22, no. 10, pp. 3268–3272, 2016.
  3. 2015

    1. J. Sauer and E. Klemm, “Neue Aufgaben für die Reaktionstechnik,” Chemie - Ingenieur - Technik, vol. 87, no. 6, p. 667, 2015.
    2. D. Kopljar, A. Inan, P. Vindayer, R. Scholz, N. Frangos, N. Wagner, and E. Klemm, “Entwicklung und Einsatz von Gasdiffusionselektroden zur elektrochemischen Reduktion von CO2,” Chemie - Ingenieur - Technik, vol. 87, no. 6, pp. 855–859, 2015.
    3. G. Näfe, M. A. Lopez-Martinez, M. Dyballa, M. Hunger, Y. Traa, T. Hirth, and E. Klemm, “Deactivation behavior of alkali-metal zeolites in the dehydration of   lactic acid to acrylic acid,” JOURNAL OF CATALYSIS, vol. 329, pp. 413–424, 2015.
    4. J. Sauer and E. Klemm, “New Tasks for the Reaction Technique,” CHEMIE INGENIEUR TECHNIK, vol. 87, no. 6, SI, p. 667, 2015.
    5. D. Kopljar, A. Inan, P. Vindayer, R. Scholz, N. Frangos, N. Wagner, and E. Klemm, “Development and Utilization of Gas Diffusion Electrodes for the   Electrochemical Reduction of CO2,” CHEMIE INGENIEUR TECHNIK, vol. 87, no. 6, SI, pp. 855–859, 2015.
  4. 2014

    1. T. Lange, F. Neher, E. Klemm, S. Heinrich, E. Balcazar, C. Liebner, and H. Hieronymus, “Heterogeneous catalysis meets micro reactors,” in Preprints of the DGMK-Conference “Selective Oxidation and Functionalization, Classical and Alternative Routes and Sources,” Hamburg, 2014, no. 2014,3, p. 97.
    2. G. Näfe, Y. Traa, T. Hirth, and E. Klemm, “True catalytic behavior of lactic acid dehydration on zeolite Na-Y in the gas phase measured by means of a novel apparatus design,” vol. 144, no. 7, pp. 1144–1150, 2014.
    3. S.-F. Hsu, S. Rommel, P. Eversfield, K. Muller, E. Klemm, W. R. Thiel, and B. Plietker, “Eine auf Ru-Katalyse basierende wiederaufladbare Wasserstoffbatterie,” vol. 126, no. 27, pp. 7194–7198, 2014.
    4. M. Grzywa, C. Geßner, B. Bredenkötter, D. Denysenko, J. van Leusen, P. Kögerler, E. Klemm, and D. Volkmer, “Coordination frameworks assembled from CuII ions and 1,3-bis(3,5-dimethyl-1H-pyrazol-4-yl)benzene ligands,” vol. 43, pp. 16846–16856, 2014.
    5. D. Kopljar, A. Inan, P. Vindayer, N. Wagner, and E. Klemm, “Electrochemical reduction of CO2 to formate at high current density using gas diffusion electrodes,” vol. 44, no. 10, pp. 1107–1116, 2014.
  5. 2013

    1. H. Henning, M. Dyballa, M. Scheibe, E. Klemm, and M. Hunger, “In situ CF MAS NMR study of the pairwise incorporation of parahydrogen into olefins on rhodium-containing zeolites Y,” Chemical physics letters, vol. 555, pp. 258–262, 2013.
    2. M. Grzywa, C. Geßner, D. Denysenko, B. Bredenkötter, F. Gschwind, K. M. Fromm, W. Nitek, E. Klemm, and D. Volkmer, “CFA-2 and CFA-3 (Coordination Framework Augsburg University-2 and -3); novel MOFs assembled from trinuclear Cu(I)/Ag(I) secondary building units and 3,3’,5,5’-tetraphenyl-bipyrazolate ligands,” vol. 42, no. 19, pp. 6909–6921, 2013.
    3. E. Roduner, W. Kaim, B. Sarkar, V. B. Urlacher, J. Pleiss, R. Gläser, W.-D. Einicke, G. A. Sprenger, U. Beifuß, E. Klemm, C. Liebner, H. Hieronymus, S.-F. Hsu, B. Plietker, and S. Laschat, “Selective catalytic oxidation of C-H bonds with molecular oxygen,” ChemCatChem, vol. 5, no. 1, pp. 82–112, 2013.
    4. M. Rupp, W. Ruback, and E. Klemm, “Alcohol ethoxylation kinetics,” Chemical engineering and processing, vol. 74, pp. 187–192, 2013.
    5. M. Dyballa, E. Klemm, J. Weitkamp, and M. Hunger, “Effect of phosphate modification on the Bronsted acidity and methanol-to-olefin conversion activity of Zeolite ZSM-5,” vol. 85, no. 11, pp. 1719–1725, 2013.
    6. M. Rupp, W. Ruback, and E. Klemm, “Octanol ethoxylation in microchannels,” Chemical engineering and processing, vol. 74, pp. 19–26, 2013.
    7. T. Lange, S. Heinrich, C. Liebner, H. Hieronymus, and E. Klemm, “Reaction engineering investigations of the partial oxidation of o-Xylene in the explosion regime - microfixed bed versus catalyst coating,” vol. 85, no. 4, pp. 461–466, 2013.
    8. S. Schulze, B. Cortese, M. Rupp, M. H. J. M. de Croon, V. Hessel, J. Couet, J. Lang, and E. Klemm, “Investigations on the anionic polymerization of butadiene in capillaries by kinetic measurements and reactor simulation,” vol. 2, no. 5, 2013.
    9. M. Dyballa, H. Henning, M. Scheibe, E. Klemm, and M. Hunger, “In situ solid-state NMR investigations of the mechanisms of hydrogenation reactions on noble metal-containing zeolites,” 2013.
  6. 2012

    1. B. Cortese, T. Noel, M. H. J. M. de Croon, S. Schulze, E. Klemm, and V. Hessel, “Modeling of anionic polymerization in flow with coupled variations of concentration, viscosity, and diffusivity,” Macromolecular reaction engineering, vol. 6, no. 12, pp. 507–515, 2012.
    2. C. Liebner, J. Fischer, S. Heinrich, T. Lange, H. Hieronymus, and E. Klemm, “Are micro reactors inherently safe? An investigation of gas phase explosion propagation limits on ethene mixtures,” Process safety and environmental protection, vol. 90, no. 2, pp. 77–82, 2012.
    3. S. Opelt, V. Krug, J. Sonntag, M. Hunger, and E. Klemm, “Investigations on stability and reusability of Pd(2-pymo)2n as hydrogenation catalyst,” vol. 147, pp. 327–333, 2012.
    4. S. Schuster, E. Klemm, and M. Bauer, “The role of Pd2+/Pd0 in hydrogenation by Pd(2-pymo)2n,” Chemistry - a European journal, vol. 18, no. 49, pp. 15831–15837, 2012.
    5. S. Heinrich, F. Edeling, C. Liebner, H. Hieronymus, T. Lange, and E. Klemm, “Catalyst as ignition source of an explosion inside a microreactor,” Chemical engineering science, vol. 84, pp. 540–543, 2012.
    6. T. Lange, S. Heinrich, C. Liebner, H. Hieronymus, and E. Klemm, “Reaction engineering investigations of the heterogeneously catalyzed partial oxidation of o-xylene in the explosion regime using a microfixed bed reactor,” Chemical engineering science, vol. 69, no. 1, pp. 440–448, 2012.
    7. H. Henning, M. Dornbach, M. Scheibe, E. Klemm, and M. Hunger, “In situ MAS NMR investigation of the hydrogenation of acrylonitrile on Pt- and Rh-containing zeolites Y,” Microporous and mesoporous materials, vol. 164, pp. 104–110, 2012.
  7. 2011

    1. S. Heinrich, M. Plettig, and E. Klemm, “Role of the Ti(IV)-superoxide species in the selective oxidation of alkanes with hydrogen peroxide in the gas phase on titanium silicalite-1,” Catalysis letters, vol. 141, no. 2, pp. 251–258, 2011.
    2. E. Klemm, G. Mathivanan, T. Schwarz, and S. Schirrmeister, “Evaporation of hydrogen peroxide with a microstructured falling film,” Chemical engineering and processing, vol. 50, no. 10, pp. 1010–1016, 2011.
    3. H. Hieronymus, J. Fischer, S. Heinrich, C. Liebner, T. Lange, and E. Klemm, “Sicherheitstechnische Untersuchungen zum Betrieb von Mikroreaktoren im Explosionsbereich,” Chemie Ingenieur Technik, vol. 83, no. 10, pp. 1742–1747, 2011.
    4. A. Demin, T. Montsch, and E. Klemm, “Untersuchungen der Induktionsphase der Hydrochlorierung von metallurgischem Silicium,” Chemie Ingenieur Technik, vol. 83, no. 10, pp. 1728–1733, 2011.
    5. M. Padmanaban, P. Muller, C. Lieder, K. Gedrich, R. Grunker, V. Bon, I. Senkovska, S. Baumgartner, S. Opelt, S. Paasch, E. Brunner, F. Glorius, E. Klemm, and S. Kaskel, “Application of a chiral metal-organic framework in enantioselective separation,” Chemical communications, ChemComm, vol. 47, no. 44, pp. 12089–12091, 2011.
  8. 2010

    1. T. Schwarz, H. Döring, E. Klemm, and S. Schirrmeister, “Herstellung von Wandkatalysatoren für Mikrostrukturreaktoren mittels der Niederdruckspritztechnologie,” Chemie - Ingenieur - Technik, vol. 82, no. 6, pp. 921–928, 2010.
    2. J. Fischer, T. Lange, R. Boehling, A. Rehfinger, and E. Klemm, “Uncatalyzed selective oxidation of liquid cyclohexane with air in a microcapillary reactor,” Chemical engineering science, vol. 65, no. 16, pp. 4866–4872, 2010.
    3. J. Frey, C. Lieder, T. Schölkopf, T. Schleid, U. Nieken, E. Klemm, and M. Hunger, “Quantitative solid-state NMR investigation of V5+ species in VPO catalysts upon sequential selective oxidation of n-butane,” Journal of catalysis, vol. 272, no. 1, pp. 131–139, 2010.
    4. C. Lieder, S. Opelt, M. Dyballa, H. Henning, M. Hunger, and E. Klemm, “Adsorbate effect on AlO4(OH)2 centers in the metal-organic framework MIL-53(Al) investigated by solid-state NMR spectroscopy,” 2010.
    5. C. Lieder, S. Opelt, M. Dyballa, H. Henning, E. Klemm, and M. Hunger, “Adsorbate effect on AlO4(OH)2 centers in the metal-organic framework MIL-53 investigated by solid-state NMR spectroscopy,” The journal of physical chemistry. C, Nanomaterials and interfaces, vol. 114, no. 39, pp. 16596–16602, 2010.
  9. 2009

    1. J. Fischer, C. Liebner, H. Hieronymus, and E. Klemm, “Maximum safe diameters of microcapillaries for a stoichiometric ethene/oxygen mixture,” Chemical engineering science, vol. 64, no. 12, pp. 2951–2956, 2009.
  10. 2008

    1. E. Klemm, A. Reitzmann, and B. Vogel, “Aromatic ring oxidation of aromatics,” in Handbook of asymmetric heterogeneous catalysis, 2nd ed., K. Ding, Ed. Weinheim: Wiley-VCH, 2008.
    2. E. Klemm, E. Dietzsch, T. Schwarz, T. Kruppa, A. Lange de Oliveira, F. Becker, G. Markowz, S. Schirrmeister, R. Schütte, K. J. Caspary, F. Schüth, and D. Hönicke, “Direct Gas-Phase Epoxidation of Propene with Hydrogen Peroxide on TS-1 Zeolite in a Microstructured Reactor,” Industrial & engineering chemistry research, vol. 47, no. 6, pp. 2086–2090, 2008.
    3. S. Opelt, S. Türk, E. Dietzsch, A. Henschel, S. Kaskel, and E. Klemm, “Preparation of palladium supported on MOF-5 and its use as hydrogenation catalyst,” Catalysis communications, vol. 9, no. 6, pp. 1286–1290, 2008.
    4. E. Klemm, E. Dietzsch, T. Schwarz, T. Kruppa, A. Lange de Oliveira, F. Becker, G. Markowz, S. Schirrmeister, R. Schütte, K. J. Caspary, F. Schüth, and D. Hönicke, “Direct gas-phase epoxidation of propene with hydrogen peroxide on TS-1 zeolite in a microstructured reactor,” Industrial & engineering chemistry research, vol. 47, no. 6, pp. 2086–2090, 2008.
  11. 2007

    1. E. Klemm, H. Döring, A. Geißelmann, and S. Schirrmeister, “Mikrostrukturreaktoren für die heterogene Katalyse,” Chemie - Ingenieur - Technik, vol. 79, no. 6, pp. 697–706, 2007.
    2. E. Klemm, H. Döring, A. Geißelmann, and S. Schirrmeister, “Microstructured reactors in heterogenous catalysis,” Chemical engineering & technology, vol. 30, no. 12, pp. 1615–1621, 2007.
    3. M. Sabo, A. Henschel, H. Frode, E. Klemm, and S. Kaskel, “Solution infiltration of palladium into MOF-5,” Journal of materials chemistry, vol. 17, no. 36, pp. 3827–3832, 2007.
  12. 2006

    1. E. Dietzsch, J. Müller, N. Völkel, and E. Klemm, “Microreactor concepts for enhanced mass transfer in the two-phase hydroformylation of 1-octene,” in Proceedings of the DGMK/SCI-Conference “Synthesis Gas Chemistry,” Hamburg, 2006, no. 2006,4, p. 163.
  13. 2005

    1. G. Markowz, S. Schirrmeister, J. Albrecht, F. Becker, R. Schütte, K. J. Caspary, and E. Klemm, “Microstructured reactors for heterogeneously catalyzed gas-phase reactions on an industrial scale,” Chemical engineering & technology, vol. 28, no. 4, pp. 459–464, 2005.
    2. G. Emig and E. Klemm, Technische Chemie, 5th ed. Berlin: Springer, 2005.
  14. 2004

    1. E. Klemm, M. Rudek, G. Markowz, and R. Schütte, “Mikroverfahrenstechnik,” in Neue Technologien, 5th ed., vol. 2, R. Dittmeyer, K. Winnacker, and L. Küchler, Eds. Weinheim: Wiley-VCH, 2004.
    2. G. Markowz, S. Schirrmeister, J. Albrecht, F. Becker, R. Schütte, K. J. Caspary, and E. Klemm, “Mikrostrukturierte Reaktoren für heterogen katalysierte Gasphasenreaktionen im industriellen Maßstab,” Chemie - Ingenieur - Technik, CIT, vol. 76, no. 5, pp. 620–625, 2004.
    3. E. Klemm and C. H. Vogel, “Technische Chemie 2003,” Nachrichten aus der Chemie, vol. 52, no. 3, pp. 332–337, 2004.
    4. U. Hiemer, E. Klemm, F. Scheffler, T. Selvam, W. Schwieger, and G. Emig, “Microreaction engineering studies of the hydroxylation of benzene with nitrous oxide,” in The chemical engineering journal, 2004, vol. 101, no. 1–3, pp. 17–22.
  15. 2002

    1. A. Reitzmann, E. Klemm, and G. Emig, “Kinetics of the hydroxylation of benzene with N2O on modified ZSM-5 zeolites,” in Chemical engineering journal, 2002, vol. 90, no. 1, pp. 149–164.
    2. A. Küksal, E. Klemm, and G. Emig, “Reaction kinetics of the liquid-phase hydrogenation of succinic anhydride on CuZnO-catalysts with varying copper-to-zinc ratios in a three-phase slurry reactor,” Applied catalysis. A, General, vol. 228, no. 1, pp. 237–251, 2002.
    3. A. Unger, U. Hiemer, A. Reitzmann, E. Klemm, and W. Schwieger, “Direct hydroxylation of benzene to phenol,” in Proceedings of the DGMK Conference “Chances for Innovative Processes at the Interface Between Refining and Petrochemistry,” Hamburg, 2002, no. 2002,4, p. 277.
    4. E. Klemm, M. Kästner, and G. Emig, “Transport phenomena and reaction in porous media,” F. Schüth, Ed. Weinheim: Wiley-VCH, 2002.
    5. R. Dotzel and E. Klemm, “Isomerisation of propadiene to propyne,” in Proceedings of the DGMK Conference “Chances for Innovative Processes at the Interface Between Refining and Petrochemistry,” Hamburg, 2002, no. 2002,4, p. 203.
    6. B. Vogel, C. Schneider, and E. Klemm, “The synthesis of cresol from toluene and N2O on HAlZSM-5,” Catalysis letters, vol. 79, no. 1, pp. 107–112, 2002.
  16. 2001

    1. J. Schirmer, J. S. Kim, and E. Klemm, “Catalytic degradation of polyethylene using thermal gravimetric analysis and a cycled-spheres-reactor,” Journal of Analytical and Applied Pyrolysis, vol. 60, no. 2, pp. 205–217, 2001.
    2. E. Klemm, B. Amon, H. Redlingshöfer, E. Dieterich, and G. Emig, “Deactivation kinetics in the hydrogenation of nitrobenzene to aniline on the basis of a coke formation kinetics - investigations in an isothermal catalytic wall reactor,” in Chemical engineering science, 2001, vol. 56, no. 4, pp. 1347–1353.
    3. T. Zeiser, P. Lammers, E. Klemm, Y. W. Li, J. Bernsdorf, and G. Brenner, “CFD-calculation of flow, dispersion and reaction in a catalyst filled tube by the lattice Boltzmann method,” Chemical engineering science, vol. 56, no. 4, pp. 1697–1704, 2001.
  17. 2000

    1. J. Ackermann, E. Klemm, and G. Emig, “Synthesis of ethylbenzene from 1,3-butadiene using basic zeolite catalysts,” 2000, vol. 130, no. Supplement C, pp. 863–868.
    2. A. Küksal, E. Klemm, and G. Emig, “Single-stage liquid phase hydrogenation of maleic anhydride to gamma-butyro-lactone, 1,4-butanediol and tetrahydrofurane on Cu/ZnO/Al2O3-catalysts,” 2000, vol. 130, no. Supplement C, p. 2111.
    3. R. Dotzel, M. Reif, and E. Klemm, “Liquid phase isomerization of propadiene to methyl acetylene on modified alumina catalysts,” 2000, vol. 130, no. Supplement C, p. 2243.
  18. 1999

    1. E. Klemm, B. Amon, H. Redlingshöfer, and G. Emig, “Kinetics of catalyst coking in the hydrogenation of nitrobenzene to aniline,” in Catalyst deactivation 1999, Amsterdam, 1999, no. 126.
    2. M. Seitz, E. Klemm, and G. Emig, “Controlling acidity and shape selectivity of acid zeolites by silanation,” in Materials Research Society conference proceedings, Warrendale, Pennsylvania, 1999.
    3. E. Klemm, A. Reitzmann, G. Emig, S. A. Buchholz, and H. W. Zanthoff, “Phenol by direct hydroxylation of benzene with nitrous oxide - role of surface oxygen species in the reaction pathways,” vol. 115, p. 604, 1999.
    4. B. Amon, H. Redlingshöfer, E. Klemm, E. Dieterich, and G. Emig, “Kinetic investigations of the deactivation by coking of a noble metal catalyst in the catalytic hydrogenation of nitrobenzene using a catalytic wall reactor,” Chemical engineering and processing, vol. 38, no. 4, pp. 395–404, 1999.
    5. S. Kowalak, K. Nowinska, M. Swiecicka, M. Sopa, A. Jankowska, G. Emig, E. Klemm, and A. Reitzmann, “Cation exchanged zeolites ZSM-5 for the hydroxylation of benzene with nitrous oxide,” in Materials Research Society conference proceedings, Warrendale, Pennsylvania, 1999.
    6. J. Ackermann, E. Klemm, and G. Emig, “Aromatization of 1,3-butadiene on basic zeolites in the vapor phase,” in Materials Research Society conference proceedings, Warrendale, Pennsylvania, 1999.
    7. E. Klemm and G. Emig, “Determination of adsorption constants and diffusion coefficients of aromatics in zeolites by transient experiments in a recycle reactor,” in Materials Research Society conference proceedings, Warrendale, Pennsylvania, 1999.
    8. B. Amon, E. Klemm, and G. Emig, “The use of a catalytic wall reactor for studying highly exothermic reactions,” Reaction kinetics and the development of catalytic processes, no. 122, C, pp. 247–254, 1999.
    9. M. Seitz, E. Klemm, and G. Emig, “Silanation as a means to reduce deactivation,” in Catalyst deactivation 1999, Amsterdam, 1999, no. 126.
  19. 1998

    1. E. Klemm, A. Reitzmann, S. Buchholz, and H. Zanthoff, “Zur Rolle von Oberflächensauerstoff- Spezies in der heterogen-katalysierten Hydroxylierung von Benzol zu Phenol mit N2O,” Chemie - Ingenieur - Technik, vol. 70, no. 8, pp. 1017–1020, 1998.
    2. E. Klemm and G. Emig, “Transient experiments in a recycle reactor for the determination of diffusion coefficients in shape selective catalysis,” in Proceedings, 3rd Polish-German Zeolite Colloquium, Torun, 1998.
    3. E. Klemm, J. G. Wang, and G. Emig, “Comparison of the sorption of benzene and phenol in silicalite, H-Al-ZSM-5, and Na-AlZSM-5 by computer simulation,” vol. 26, p. 11, 1998.
    4. E. Klemm, M. Seitz, H. Scheidat, and G. Emig, “Controlling acidity and selectivity of HY-type zeolites by silanation,” Journal of catalysis, vol. 173, no. 1, pp. 177–186, 1998.
    5. A. Reitzmann, H. Friedrich, E. Klemm, M. Häfele, and G. Emig, “Reaction engineering investigations of hydroxylation of benzene on ZSM-5 type zeolites,” in Proceedings, 3rd Polish-German Zeolite Colloquium, Torun, 1998.
  20. 1997

    1. E. Klemm and G. Emig, “Simulation of the isomerization of an ortho-diethylbenzene on zeolites using a continuum approach and different diffusion models,” Microporous materials, vol. 12, no. 4, pp. 281–291, 1997.
    2. E. Klemm and G. Emig, “A method for the determination of diffusion coefficients in product-shape-selective catalysis on zeolites under reaction conditions,” Chemical engineering science, vol. 52, no. 23, pp. 4329–4344, 1997.
    3. M. Häfele, A. Reitzmann, E. Klemm, and G. Emig, “Hydroxylation of benzene on ZSM5 type catalysts,” in 3rd World Congress on Oxidation Catalaysis, 1997, no. 110, Supplement C, pp. 847–856.
    4. H. W. Zanthoff, M. Lahmer, M. Baerns, E. Klemm, M. Seitz, and G. Emig, “Enhanced product selectivity in partial oxidation of propane on multicomponent oxide catalysts by masking of total oxidation sites,” Journal of catalysis, vol. 172, no. 1, pp. 203 – 210, 1997.
    5. K. Nowinska, S. Kowalak, M. Sopa, M. Swiecicka, G. Emig, E. Klemm, and A. Reitzmann, “Direct catalytic oxidation of benzene to phenol,” in Book of abstracts, Third European Congress of Catalysis, Kraków, 1997.
    6. E. Klemm, H. Scheidat, and G. Emig, “A study of shape selectivity on zeolites in ethylbenzene disproportionation,” Chemical engineering science, vol. 52, no. 16, pp. 2757–2768, 1997.
    7. E. Klemm, J. Wang, and G. Emig, “A study of shape selectivity in ethylation/disproportionation of ethylbenzene on ZSM-5 zeolites using a continuum and a Monte Carlo method,” Chemical engineering science, vol. 52, no. 18, pp. 3173–3182, 1997.
  21. 1995

    1. E. Klemm, H. Seiler, and G. Emig, “A computer simulation of shape selective catalysis on zeolites,” in Zeolite science 1994, Amsterdam, 1995, no. 98, p. 246.
  22. 1994

    1. G. Emig, E. Klemm, and H. Seiler, “Modellierung formselektiver Katalyse in Zeolithen,” Chemie - Ingenieur - Technik, vol. 66, no. 7, pp. 956–959, 1994.

• Vorlesungen Reaktionstechnik, Heterogene Katalyse, Chemische Produktionsverfahren, Universität Stuttgart. 
• Süddeutscher Lehrverbund Katalyse. 
• GDCh-Fortbildungskurs Präparative Chemie in Mikroreaktoren, Kurseinheit Grundlagen der Reaktionsführung in Mikroreaktoren, TU Dresden. 
• DECHEMA-Kurs Mikroverfahrenstechnik, Kurseinheit Sicherheitsaspekte, RWTH Aachen. 

Angaben zur Person: 

Name:
Prof. Dr.-Ing. Elias Klemm
Geburtsdatum:
11. Januar 1965
Geburtsort:
Erlangen, Deutschland
Dienststellung:
W3-Professor für Technische Chemie 
und Heterogene Katalyse an der 
Universität Stuttgart

Schulbildung:

 1971-1975     
Grundschule in Rothenburg o.d.T.
 1975-1982
Reichsstadt-Gymnasium Rothenburg o.d.T. (math.-nat. Gymnasium)
 1982-1984
Gymnasium Fränkische Schweiz, Ebermannstadt

Hochschulqualifikationen:

1985-1991     
Studium des Chemieingenieurwesens (Fachrichtung: Technische  Chemie) an der Friedrich-Alexander-Universität Erlangen-Nürnberg
1991-1995
Promotion am Lehrstuhl für Technische Chemie I der Universität Erlangen-Nürnberg (Leiter: Prof. G. Emig),
Thema: Selektivitätslenkung an modifizierten Faujasiten am Beispiel der Disproportionierung von Ethylbenzol
 2001
Lehrbefähigung für das Fach Technische Chemie an der Universität Erlangen-Nürnberg (Habilitation),
Thema: Direktsynthese von Phenol und Kresol – Vom Katalysator zum Verfahren –
 2003 Lehrbefugnis für das Fach Technische Chemie an der Universität Erlangen-Nürnberg (Privatdozentur)
 2003 Berufung zum C4-Professor für Technische Chemie an der TU Chemnitz
 2008 Ablehnung eines Rufs auf die Professur Chemische Technologie Organischer Stoffe an der Johannes Kepler Universität Linz
 2009 Berufung zum W3-Professor für Technische Chemie und Heterogene Katalyse an der Universität Stuttgart
   

Anstellungsverhältnisse:  

1991-2000    
Wissenschaftlicher Mitarbeiter am Lehrstuhl für Technische Chemie I der Universität Erlangen-Nürnberg (Leiter: Prof. G. Emig)
2000-2003 Akademischer Rat am Lehrstuhl für Technische Chemie I  der Universität Erlangen-Nürnberg (Leiter: Prof. G. Emig)
2001-2003 Degussa AG, Verfahrenstechnik, Abteilung Neue Prozesse
2003-2009 C4-Professor für Technische Chemie an der TU Chemnitz
2009- W3-Professor für Technische Chemie und Heterogene Katalyse an der Universität Stuttgart

• Mitglied im Kuratorium des Karl-Winnacker-Instituts der DECHEMA e.V. 
• Vorsitzender des Vorstands der ProcessNet-Fachgruppe Reaktionstechnik 
• Mitglied im ProcessNet-Arbeitsausschuss Mikroreaktionstechnik 
• Mitglied im ProcessNet-Arbeitsausschuss Technische Reaktionen 
• Mitglied im ProcessNet-Arbeitsausschuss Reaktionstechnik sicherheitstechnisch schwieriger Prozesse 
• Mitglied im ProcessNet-Arbeitsausschuss Technische Chemie an Wissenschaftlichen Hochschulen 
• Mitglied in der Arbeitsgruppe Sicherheit und Zulassung der Industrieplattform Mikroverfahrenstechnik 
• Mitglied im wissenschaftlichen Komitee der Jahrestreffen Reaktionstechnik seit 2008, Würzburg

• Member of the Editorial Board of the Journal Chemie Ingenieur Technik 
• Member of the Editorial Board of the Journal of Fuel Chemistry and Technology 

1998           
Hochschullehrer-Nachwuchspreis 1997 des DECHEMA-Unterrichts-ausschusses für Technische Chemie
1999
Carl-Zerbe-Preis (Förderpreis für Nachwuchswissenschaftler der DGMK)
2001
Jochen-Block-Preis 2000 der DECHEMA-Fachsektion Katalyse