J
Jonas Warneke
Researcher at Leipzig University
Publications - 67
Citations - 1315
Jonas Warneke is an academic researcher from Leipzig University. The author has contributed to research in topics: Molecule & Dissociation (chemistry). The author has an hindex of 18, co-authored 62 publications receiving 1026 citations. Previous affiliations of Jonas Warneke include Pacific Northwest National Laboratory & Purdue University.
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Functionalization of Platinum Nanoparticles with l-Proline: Simultaneous Enhancements of Catalytic Activity and Selectivity
TL;DR: This finding demonstrates that the use of ligands in heterogeneous catalysis allows for simultaneous enhancements of activity and selectivity.
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Control of chemical reactions and synthesis by low-energy electrons
TL;DR: This tutorial review focuses in particular on low-energy electron-initiated molecular syntheses and their applications in the modification of surfaces and emphasizes strategies towards the controlled and predictable formation of more complex products from small reactants initiated by interaction with low- energy electrons.
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Surface Chemistry of “Unprotected” Nanoparticles: A Spectroscopic Investigation on Colloidal Particles
Imke Schrader,Jonas Warneke,Sarah Neumann,Sarah Grotheer,Andreas Abildgaard Swane,Jacob J. K. Kirkensgaard,Matthias Arenz,Sebastian Kunz +7 more
TL;DR: In this paper, the authors used NMR spectroscopy to detect the presence of any C-H containing species bound to the particle surface, and the colloids were found to be covered by CO.
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On the Oxidation of the Three‐Dimensional Aromatics [B12X12]2− (X=F, Cl, Br, I)
René T. Boeré,Janis Derendorf,Carsten Jenne,Sylwia Kacprzak,Mathias Keßler,Rainer Riebau,Sebastian Riedel,Tracey L. Roemmele,Monika Rühle,Harald Scherer,Thomas Vent-Schmidt,Jonas Warneke,Stefan Weber +12 more
TL;DR: The perhalogenated closo-dodecaborate dianions [B12 X12 ](2-) are three-dimensional counterparts to the two-dimensional aromatics C6 X6 and showed a complex oxidation behavior in cyclic voltammetry experiments, presumably owing to decomposition of the cluster anion under release of iodide, which also explains the failure to isolate the respective radical by chemical oxidation.
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From Isolated Ions to Multilayer Functional Materials Using Ion Soft Landing
TL;DR: Important phenomena are discussed and key developments pertaining to the preparation of well-defined interfaces for studies in energy storage, catalysis, soft materials, and biology are highlighted.