Phosphorescence emission and polarization of harmane

Journal of Photochemistry Pub Date : 1987-08-01 DOI:10.1016/0047-2670(87)80037-0

A. Olba, F. Tomás, I. Zabala, P. Medina

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引用次数: 3

Abstract

Phosphorescence and excitation spectra, phosphorescence and excitation polarization spectra and phosphorescence lifetimes were measured in methylcyclohexane (MC) and EPA glasses at 77 K for harmane (1-methyl-9H-pyrido[3,4-b]indole).

It has been found that the 0—0 band of the phosphorescence emission is polarized out of plane, using the excitations corresponding to absorptions into the first and second excited ππ^* singlet states. This fact and the order of the lifetimes measured indicate an emitting triplet that is ³(ππ^*) in both solvents. The origin of this polarization is very likely ¹(nπ^*) → ³(ππ^*) mixing as a result of spin–orbit coupling. However, the vibrational structure and changing polarization outside the OO band indicate that second-order effects involving spin—orbit coupling and vibronic interactions are important and the mixing scheme appears to be

The “proximity effect” can qualitatively explain the low intensity of phosphorescence and the stronger vibronic interaction between the nπ^* and ππ^* states of harmane in a hydrocarbon solvent (MC).

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磷光发射和磷光偏振

在甲基环己烷(MC)和EPA玻璃中，测定了77 K下harmane(1-甲基- 9h -pyrido[3,4-b]吲哚)的磷光和激发光谱、磷光和激发偏振光谱以及磷光寿命。利用吸收到第一和第二激发ππ*单重态对应的激发，发现磷光发射的0-0波段是平面外极化的。这一事实和测量的寿命顺序表明，在两种溶剂中，发射三重态是3(π *)。极化的起源很可能是由于自旋-轨道耦合导致的1(nπ*)→3(π *)混合。然而，OO波段外的振动结构和偏振变化表明，涉及自旋轨道耦合和振动相互作用的二阶效应是重要的，混合方案似乎是“接近效应”，可以定性地解释烃溶剂中harmane的磷光强度低，而nπ*和π*态之间的振动相互作用更强。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Photochemistry

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