Analytical study of superaromaticity in cycloarenes and related coronoid hydrocarbons

Aihara J.-I.; Makino M.; Ishida T.; Dias J.R.

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Analytical study of superaromaticity in cycloarenes and related coronoid hydrocarbons

机译：环芳烃和相关冠状碳氢化合物中超芳香性的分析研究

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Recently synthesized septulene is a unique cycloarene molecule in that no macrocyclic conjugation circuits can be chosen from the π-system. This molecule has essentially no superaromatic stabilization energy (SSE) and can be viewed as an ideal nonsuperaromatic macrocycle. SSEs for kekulene and other cycloarenes are also very small. In these hydrocarbons, a macrocycle formed by fused benzene rings effectively suppresses not only the aromaticity inherent in macrocyclic (4n+2)-site conjugation circuits but also the antiaromaticity inherent in macrocyclic (4n±1)-site circuits. Comparative study of superaromaticity in multilayered coronoid hydrocarbons revealed that not only SSE but also the HOMO contribution to SSE is minimized in odd-layered coronoids.

机译：最近合成的七烯是独特的环芳烃分子，因为不能从π系统中选择大环共轭电路。该分子基本上不具有超芳族稳定能（SSE），可以视为理想的非超芳族大环。可可烯和其他环芳烃的SSE也很小。在这些烃中，由稠合苯环形成的大环不仅有效地抑制了大环（4n + 2）-位共轭回路固有的芳香性，而且还抑制了大环（4n±1）-位回路固有的抗芳香性。多层冠状碳氢化合物中超芳香性的比较研究表明，在奇数层冠状碳中，不仅SSE最小，而且HOMO对SSE的贡献最小。

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《The journal of physical chemistry, A. Molecules, spectroscopy, kinetics, environment, & general theory》 |2013年第22期|共10页
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Aihara J.-I.; Makino M.; Ishida T.; Dias J.R.;
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Analytical study; cycloarenes; related coronoid hydrocarbons;

机译：分析研究;环芳烃;相关冠状烃;

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机译：环芳烃和相关冠状碳氢化合物中超芳香性的分析研究
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Analytical study of superaromaticity in cycloarenes and related coronoid hydrocarbons

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