Iglesia, Enrique - University of California, Berkeley - Chemical & Biomolecular Engineering

个人简介

Bachelor of Science (summa cum laude), 1977; Princeton University Ph.D., Chemical Engineering, 1982; Stanford University

研究领域

Heterogeneous catalysis and chemical reaction engineering Professor Iglesia has been involved in studies of heterogeneous catalysts for the direct and indirect conversion of methane to higher hydrocarbons, uses of light alkanes in desulfurization and de-NOx, reactions, dehydrogenation of light alkanes to alkenes and aromatics, catalytic reforming and cracking processes, for low-temperature isomerization, alkylation, and combustion reactions. Current research projects also include the practical use of catalytic membranes to combine reaction and separation functions in alkane dehydrogenation and conversion processes and the development of theoretical methods for predicting the structure, transport, and chemical properties of porous solid catalysts. His research group at Berkeley combines expertise and facilities for the synthesis of novel catalytic solids, their in-situ structural and mechanistic characterization, and the detailed modeling of kinetic and transport processes in catalytic processes relevant to oil refining and petrochemical synthesis.

近期论文

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Sarazen, M., and Iglesia, E., Journal of Catalysis (submitted) (“Experimental and Theoretical Assessment of the Mechanism of Hydrogen Transfer in Alkane-Alkene Coupling on Solid Acids”). Otto, T., Zones, S., Hong, Y., and Iglesia, E., ACS Catalysis (submitted) (“Synthesis of Highly Dispersed Cobalt Oxide Clusters Encapsulated within LTA zeolites”). Wang, S., and Iglesia, E.,, Journal of Catalysis (submitted) (“Catalytic Diversity Conferred by Confinement of Protons within Porous Aluminosilicates in Prins Condensation Reactions”). Agirrezabal-Telleria, I. and Iglesia, E., Journal of Catalysis (submitted) (“Stabilization of active, selective, and regenerable Ni-based dimerization catalysts by condensation of ethene within ordered mesopores”). Tao, Z., Chemburkar, A., Hibbitts, D.D., Iglesia, E., and Neurock, M., Discussions Faraday Society (in press) (“Theoretical Insights into the Sites and Mechanisms for Base Catalyzed Esterification and Aldol Condensation Reactions over Cu”). DOI:10.1039/c6fd00226a. Iglesia, E., Proceedings of the 24th Solvay Conference on Chemistry (in press) (“Consequences of Confinement for Catalysis within Voids of Molecular Dimensions”). Maestri, M. and Iglesia, E., Journal of Catalysis (submitted) (“First-principles Assessment of Catalysis by Confinement: NO Oxidation on Silicate Frameworks Containing Voids of Molecular Dimensions”). Sarazen, M.L. and Iglesia, E., Proceedings of the National Academy of Science (accepted) (“Stability of Bound Species during Alkene Reactions on Solid Acids”). Wang, S., Agirrezabal-Telleria, I., Bhan, A., Simonetti, D., Takanabe, K., and Iglesia, E., Faraday Discussions (2017) (in press) (“Catalytic routes to fuels from C1 and oxygenate molecules”). DOI:10.1039/C7FD00018A. Wang, S. and Iglesia, E., Journal of Catalysis, 345 (2017) 183 (“Experimental and Theoretical Assessment of the Mechanism and Site Requirements for Ketonization of Carboxylic Acids on Oxides”). [Graphical Abstract]. DOI:10.1016/j.jcat.2016.11.006. Sarazen, M., and Iglesia, E., Journal of Catalysis (submitted) (“Experimental and Theoretical Assessment of the Mechanism of Hydrogen Transfer in Alkane-Alkene Coupling on Solid Acids”). Otto, T., Zones, S., Hong, Y., and Iglesia, E., ACS Catalysis (submitted) (“Synthesis of Highly Dispersed Cobalt Oxide Clusters Encapsulated within LTA zeolites”). Wang, S., and Iglesia, E.,, Journal of Catalysis (submitted) (“Catalytic Diversity Conferred by Confinement of Protons within Porous Aluminosilicates in Prins Condensation Reactions”). Agirrezabal-Telleria, I. and Iglesia, E., Journal of Catalysis (submitted) (“Stabilization of active, selective, and regenerable Ni-based dimerization catalysts by condensation of ethene within ordered mesopores”). Tao, Z., Chemburkar, A., Hibbitts, D.D., Iglesia, E., and Neurock, M., Discussions Faraday Society (in press) (“Theoretical Insights into the Sites and Mechanisms for Base Catalyzed Esterification and Aldol Condensation Reactions over Cu”). DOI:10.1039/c6fd00226a. Iglesia, E., Proceedings of the 24th Solvay Conference on Chemistry (in press) (“Consequences of Confinement for Catalysis within Voids of Molecular Dimensions”). Maestri, M. and Iglesia, E., Journal of Catalysis (submitted) (“First-principles Assessment of Catalysis by Confinement: NO Oxidation on Silicate Frameworks Containing Voids of Molecular Dimensions”). Sarazen, M.L. and Iglesia, E., Proceedings of the National Academy of Science (accepted) (“Stability of Bound Species during Alkene Reactions on Solid Acids”). Wang, S., Agirrezabal-Telleria, I., Bhan, A., Simonetti, D., Takanabe, K., and Iglesia, E., Faraday Discussions (2017) (in press) (“Catalytic routes to fuels from C1 and oxygenate molecules”). DOI:10.1039/C7FD00018A. Wang, S. and Iglesia, E., Journal of Catalysis, 345 (2017) 183 (“Experimental and Theoretical Assessment of the Mechanism and Site Requirements for Ketonization of Carboxylic Acids on Oxides”). [Graphical Abstract]. DOI:10.1016/j.jcat.2016.11.006. Sarazen, M., and Iglesia, E., Journal of Catalysis (submitted) (“Experimental and Theoretical Assessment of the Mechanism of Hydrogen Transfer in Alkane-Alkene Coupling on Solid Acids”). Otto, T., Zones, S., Hong, Y., and Iglesia, E., ACS Catalysis (submitted) (“Synthesis of Highly Dispersed Cobalt Oxide Clusters Encapsulated within LTA zeolites”). Wang, S., and Iglesia, E.,, Journal of Catalysis (submitted) (“Catalytic Diversity Conferred by Confinement of Protons within Porous Aluminosilicates in Prins Condensation Reactions”). Agirrezabal-Telleria, I. and Iglesia, E., Journal of Catalysis (submitted) (“Stabilization of active, selective, and regenerable Ni-based dimerization catalysts by condensation of ethene within ordered mesopores”). Tao, Z., Chemburkar, A., Hibbitts, D.D., Iglesia, E., and Neurock, M., Discussions Faraday Society (in press) (“Theoretical Insights into the Sites and Mechanisms for Base Catalyzed Esterification and Aldol Condensation Reactions over Cu”). DOI:10.1039/c6fd00226a.