β-γ-不饱和螺内酯的光化学性质

Photochem Pub Date : 2023-10-17 DOI:10.3390/photochem3040025
Werner Fudickar, Melanie Metz, Tobias Krüger-Braunert, Alexandra Kelling, Eric Sperlich, Pablo Wessig, Torsten Linker
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引用次数: 0

摘要

β-γ-不饱和螺内酯很容易通过Birch还原得到。我们描述了它们在有或没有羰基化合物的情况下的光化学反应。螺旋内酯在230 nm处有明显的吸收带,这是其他环己烯所没有的。我们通过双键与羰基在空间中的相互作用来解释这种行为,并通过TDDFT计算进一步证明了这一点。这使得它们可以直接被UV-C光激发。有趣的是,我们只得到氧-二π-甲烷重排的产物,这在内酯中是未知的。这说明了一个从单重态开始的反应途径,由计算的双自由基中间体的相对能量证实了这一点。虽然聚合是主要的副反应,但我们能够以中等产量的纯度分离三环内酯。在苯甲醛或二苯甲酮存在的情况下,可以用UV-B光激发,导致h原子在烯丙基位置被抽离并形成醇。由于含有富电子双键,Paternó-Büchi产物也被分离出来。采用柱层析或高效液相色谱法分离不同的非对映体。它们的相对构型是通过NOESY测量或x射线结构分析确定的。总的来说,β-γ-不饱和螺内酯与其他环己二烯相比,表现出明显不同的光化学反应,只需几步就能产生新产物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Photochemistry of β-γ-Unsaturated Spirolactones
β-γ-unsaturated spirolactones are easily available by Birch reduction. We describe their photochemistry in the presence of or without carbonyl compounds. The spirolactones show a distinct absorption band at 230 nm, which is not present in other cyclohexadienes. We explain this behavior by an interaction of the double bonds with the carbonyl group through space, further proven by TDDFT calculations. This allows their direct excitation with UV-C light. Interestingly, we obtain only products of an oxa-di-π-methane rearrangement, hitherto unknown for lactones. This speaks for a reaction pathway starting from singlet states, confirmed by calculated relative energies of biradical intermediates. Although polymerization is the main side reaction, we were able to isolate tricyclic lactones in moderate yields in a pure form. In the presence of benzaldehyde or benzophenone, excitation with UV-B light was possible, leading to H-atom abstraction in the allylic position and formation of alcohols. With an electron-rich double bond, the Paternó–Büchi products were isolated as well. The different diastereomers were separated by column chromatography or HPLC. Their relative configurations were determined using NOESY measurements or X-ray structure analysis. Overall, β-γ-unsaturated spirolactones show a remarkably different photochemistry compared to other cyclohexadienes, affording new products in only a few steps.
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CiteScore
3.60
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