Heiko Rinderhagen scite author profile

Heiko Rinderhagen

3Publications

50Citation Statements Received

47Citation Statements Given

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Affiliations

Bielefeld University

Publications

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Synthetic Applications in Radical/Radical Cationic Cascade Reactions

Rinderhagen

Mattay

2004

Chemistry A European J

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Oxidative photoinduced electron transfer (PET) reactions have been performed with various cyclic cyclopropyl(vinyl) silyl ethers bearing an olefinic or acetylenic side chain. The reactions result in bi- to tetracyclic ring systems via a fragmentation-radical/radical cationic addition reaction pathway with well defined ring juncture. The mode of cyclisation (endo/exo) can be partially controlled by addition of nucleophiles due to the suppression of radical cationic reaction pathways. Quantum chemical calculation of the cyclisation transition states underline the experimentally found selectivities. Additional mechanistic studies concerning the saturation step reveal that the final radical is saturated mostly by the solvent and traces of water in the solvent.

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Facile ring opening of siloxy cyclopropanes by photoinduced electron transfer. A new way to β-keto radicals

2006

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Regioselective Oxidative Ring Opening of Cyclopropyl Silyl Ethers: A Quantum Chemical Study

Rinderhagen

Mattay

Nussbaum

et al. 2010

Chemistry A European J

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In contrast to the structurally and configurationally stable alkyl‐ or aryl‐substituted cyclopropyl radical cations, cyclopropyl silyl ethers undergo spontaneous ring opening upon oxidation whereby the endocyclic CC(O‐TMS) bond is cleaved with remarkable selectivity. DFT calculations on 1‐trimethylsilyloxybicyclo[4.1.0]heptane show that this selectivity arises from the topology of the potential surface of the corresponding radical cation which is initially generated in a very steep region of the potential surface from where the steepest descent leads to cleavage of the endocyclic rather than the lateral CC(OTMS) bond. Cleavage of the lateral bond leads to interesting conformational changes which are explored in detail.

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