E
Elias Klemm
Researcher at University of Stuttgart
Publications - 155
Citations - 3871
Elias Klemm is an academic researcher from University of Stuttgart. The author has contributed to research in topics: Catalysis & Microreactor. The author has an hindex of 28, co-authored 144 publications receiving 3154 citations. Previous affiliations of Elias Klemm include University of Erlangen-Nuremberg & Bayer.
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Journal ArticleDOI
Solution infiltration of palladium into MOF-5: synthesis, physisorption and catalytic properties
TL;DR: Palladium was infiltrated into the highly porous metal-organic framework MOF-5 using [Pd(acac)2] (acac = acetylacetonate) as the precursor in chloroform solution viaipient wetness impregnation.
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Selective Catalytic Oxidation of CH Bonds with Molecular Oxygen
Emil Roduner,Wolfgang Kaim,Biprajit Sarkar,Vlada B. Urlacher,Jürgen Pleiss,Roger Gläser,Wolf-Dietrich Einicke,Georg A. Sprenger,Uwe Beifuß,Elias Klemm,Christian Liebner,H. Hieronymus,Shih-Fan Hsu,Bernd Plietker,Sabine Laschat +14 more
TL;DR: Theoretical work on catalyst precursors, resting states, and elementary steps, as well as model reactions complemented by spectroscopic studies provide detailed insight into the molecular mechanisms of oxidation catalyses and pave the way for preparative applications.
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Numerical simulations of single phase reacting flows in randomly packed fixed-bed reactors and experimental validation
Hannsjörg Freund,Thomas Zeiser,Florian Huber,Elias Klemm,Gunther Brenner,Franz Durst,Gerhard Emig +6 more
TL;DR: In this article, a Monte-Carlo method was used to generate realistic random packings of spherical particles, and the subsequent numerical simulation of the 3D flow field and coupled mass transport of reacting species is done by means of lattice Boltzmann methods.
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Solvents and Supporting Electrolytes in the Electrocatalytic Reduction of CO2.
TL;DR: A deeper understanding of the effects of supporting electrolytes and different solvents in the CO2RR reported in the literature can help with the prediction of performance, as well as the development of scalable electrolyzers.
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Application of a chiral metal–organic framework in enantioselective separation
Mohan Padmanaban,Philipp Müller,Christian Lieder,Kristina Gedrich,Ronny Grünker,Volodymyr Bon,Irena Senkovska,Sandra Baumgärtner,Sabine Opelt,Silvia Paasch,Eike Brunner,Frank Glorius,Elias Klemm,Stefan Kaskel +13 more
TL;DR: A modular approach for the synthesis of highly ordered porous and chiral auxiliary (Evans auxiliary) decorated metal-organic frameworks is developed, which can provide access to a wide range of porous materials suitable for enantioselective separation and catalysis.