Baird 的 4nπ-电子三重态稳定化导致醌型 1,6-亚甲萘并[10]轮烯中出现异常小的单重态-三重态能隙。

An Unusually Small Singlet-Triplet Gap in a Quinoidal 1,6-Methano[10]annulene Resulting from Baird's 4n π-Electron Triplet Stabilization.

机构信息

Department of Chemistry, Johns Hopkins University, Baltimore MD, 21218 (USA).

出版信息

Angew Chem Int Ed Engl. 2015 May 11;54(20):5888-93. doi: 10.1002/anie.201500879. Epub 2015 Apr 1.

DOI:10.1002/anie.201500879

Abstract

Within the continuum of π-extended quinoidal electronic structures exist molecules that by design can support open-shell diradical structures. The prevailing molecular design criteria for such structures involve proaromatic nature that evolves aromaticity in open-shell diradical resonance structures. A new diradical species built upon a quinoidal methano[10]annulene unit is synthesized and spectroscopically evaluated. The requisite intersystem crossing in the open-shell structure is accompanied by structural reorganization from a contorted Möbius aromatic-like shape in S0 to a more planar shape in the Hückel aromatic-like T1. This stability was attributed to Baird's Rule which dictates the aromaticity of 4n π-electron triplet excited states.

摘要

在π-扩展的醌式电子结构连续体中存在一些分子，通过设计可以支持开壳双自由基结构。这类结构的主要分子设计标准涉及到前芳香性，即开壳双自由基共振结构中的芳香性演变。本文合成并光谱评估了基于醌式甲烷[10]轮烯单元的新型双自由基物种。在开壳结构中需要发生系间窜越，同时伴随着从扭曲的莫比乌斯芳香形状到更平面的休克尔芳香形状的结构重排。这种稳定性归因于 Baird 规则，该规则规定了 4nπ-电子三重态激发态的芳香性。

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Baird 的 4nπ-电子三重态稳定化导致醌型 1,6-亚甲萘并[10]轮烯中出现异常小的单重态-三重态能隙。

An Unusually Small Singlet-Triplet Gap in a Quinoidal 1,6-Methano[10]annulene Resulting from Baird's 4n π-Electron Triplet Stabilization.

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Baird 的 4nπ-电子三重态稳定化导致醌型 1,6-亚甲萘并[10]轮烯中出现异常小的单重态-三重态能隙。

An Unusually Small Singlet-Triplet Gap in a Quinoidal 1,6-Methano[10]annulene Resulting from Baird's 4n π-Electron Triplet Stabilization.

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