P
Paul von Ragué Schleyer
Researcher at University of Erlangen-Nuremberg
Publications - 888
Citations - 53731
Paul von Ragué Schleyer is an academic researcher from University of Erlangen-Nuremberg. The author has contributed to research in topics: Ab initio & Ab initio quantum chemistry methods. The author has an hindex of 99, co-authored 888 publications receiving 51421 citations. Previous affiliations of Paul von Ragué Schleyer include University of Edinburgh & Yarmouk University.
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Fluorenylrubidium · N,N, N′,N″,N″-pentamethyldiethylenetriamine: A square-wave-like polymeric chain in the solid state
TL;DR: In this paper, the transmetallation of fluorenyllithium with RbO t Bu in THF yields fluorenylrubidium, which in the presence of PMDTA gives cube-shaped crystals of [C 13 H 9 Rb·PMDTA] n (1 ).
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Mass spectrometry of gas-phase lithium alkoxides
TL;DR: Les ions les plus abondants correspondent aux tetrameres, hexameres ou agregats plus grands; ces derniers sont stabilises par les coordinats hydroxo.
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Conformational preferences of 34 valence electron A2X4 molecules: An ab initio Study of B2F4, B2Cl4, N2O4, and C2O
TL;DR: In this article, the experimental trend toward greater preference for the D2d forms in going from B2F4 to B2Cl4 is reproduced, although the rotation barrier is overestimated at the theoretical levels used.
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Durch benachbarte B-B-Bindungen stabilisierte Carben-Analoga von Bor: doppelaromatische Bishomotriboriranide
Markus Unverzagt,Govindan Subramanian,Matthias Hofmann,Paul von Ragué Schleyer,Stefan Berger,Klaus Harms,Werner Massa,Armin Berndt +7 more
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Entartete Isomerisierung via Kohlenstoff-Platzwechsel beim Cyclopentyl-Kation in der Gasphase. Experimenteller und theoretischer Nachweis der Existenz eines pyramidalen C5H-Kations bei der unimolekularen Ethylen-Eliminierung
Wilfried Franke,Helmut Schwarz,Helga Thies,Jayaraman Chandrasekhar,Paul von Ragué Schleyer,Warren J. Hehre,Martin Saunders,Gary E. Walker +7 more
TL;DR: In this article, the existence of a pyramidal C5H Cation as an intermediate in the unimolecular elimination of [M-Br]+ ions generated from both the cyclic and acyclic precursors is demonstrated.