Highly strained 2,3-bridged 2H-azirines at the borderline of closed-shell molecules |
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| Authors: | Banert Klaus Meier Barbara Penk Enrico Saha Biswajit Würthwein Ernst-Ulrich Grimme Stefan Rüffer Tobias Schaarschmidt Dieter Lang Heinrich |
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| Affiliation: | Organic Chemistry, Chemnitz University of Technology, Strasse der Nationen 62, 09111 Chemnitz, Germany. klaus.banert@chemie.tu-chemnitz.de |
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| Abstract: | Substituted 1-azidocyclopentenes and 1-azidocyclohexenes were photolyzed to generate 2,3-bridged 2H-azirines. In the case of bridgehead azirines with a six-membered carbocycle, detection by NMR spectroscopic analysis was possible, whereas even kinetically stabilized bridgehead azirines with a five-membered ring could not be characterized by low-temperature NMR spectroscopic analysis. Thus, a recent report on the latter heterocycles was corrected. Depending on the substitution pattern, irradiation of 1-azidocyclopentenes either led to products that can be explained on the basis of short-lived 2,3-bridged 2H-azirines, or gave secondary products generated from triplet nitrenes. The diverse photoreactivity of 2,3-bridged 2H-azirines was also studied by quantum chemical methods (DFT, CCSD(T), CASSCF(6,6)) with respect to the singlet and triplet energy surfaces. The ring-opening processes leading to the corresponding vinyl nitrenes were identified as key steps for the observed reactivity. |
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| Keywords: | azides nitrogen heterocycles photolysis quantum chemical calculations reactive intermediates |
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