Photochemistry of phenylfulgides XXII: Competing ultrafast radiationless deactivation, E—Z isomerization and electrocyclic ring-closure reactions

Journal of Photochemistry Pub Date : 1987-06-01 DOI:10.1016/0047-2670(87)87017-X

H.-D. Ilge, J. Sühnel , D. Khechinashvili, M. Kaschke

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引用次数: 17

Abstract

The photoisomerization about the αβ and γδ double bonds and the electrocyclic ring-closure reaction are competing processes within the excited singlet state of the phenylfulgides. Both processes are induced by the torsion of bulky molecular parts. Because of the extreme steric hindrance the torsion processes occur on potential curves without any activation barrier and consequently the photoisomerization, the photocyclization and the radiationless deactivation of the phenylfulgides are ultrafast processes proceeding within a few picoseconds, or even less, as the absorption measurements performed on a picosecond excite-and-probe beam spectrometer reveal. The competition between the E—Z isomerization and the cyclization is expressed by means of the partial quantum yields of these processes. The experimental results are interpreted in terms of the πbond orders and the sums of free-valence indices for the bondforming atoms in the S₁ state calculated by the Pariser—Parr—People method.

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苯磺酰亚胺的光化学XXII：竞争性超快无辐射失活、E-Z异构化和电闭环反应

α的光异构化β和γδ双键和电环闭合反应是苯磺酰亚胺激发单线态中的竞争过程。这两个过程都是由庞大分子部件的扭转引起的。由于极端的空间位阻，扭转过程发生在没有任何活化势垒的电势曲线上，因此苯基磺酰亚胺的光异构化、光环化和无辐射失活是在几皮秒甚至更短的时间内进行的超快过程，正如在皮秒激发和探测光束光谱仪上进行的吸收测量所揭示的那样。E-Z异构化和环化之间的竞争通过这些过程的部分量子产率来表示。实验结果用π来解释键序与键的自由价指数之和通过Pariser-Parr-People方法计算，形成S1态的原子。

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Journal of Photochemistry

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