Photophysical Features of Phthalocyanines Metallocomplexes with Out-of-Plane Ligands

Universal Journal of Physics and Application Pub Date : 2017-08-01 DOI:10.13189/UJPA.2017.110403

A. Starukhin, A. Gorski, V. Knyukshto, M. Kijak, I. Tretyakova, Yan Dovbii, V. Chernii

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引用次数: 1

Abstract

The objective of this work was synthesizing of Ti-, Zr-, Hf-phthalocyanines, containing chloride ions or dibenzoylmethanate fragments coordinated in out-of-plane positions to macrocycle. Spectroscopic and photophysical parameters of phthalocyanines metallocomplexes with metal atoms Ti(IV), Zr(IV) and Hf(IV) and spectroscopic features of Mg- and Zn-phthalocyanines have been detected and characterized at ambient and liquid nitrogen temperatures. The efficient intersystem crossing observed for Hf-phthalocyanine leads to very weak fluorescence and suppresses the fluorescence lifetimes to less than 1 ns. Changing of nature of central metals from heavy Hf(IV) atom to lighter atoms: Zr(IV), Zn(II), Ti(IV), Mg(II) lead to noticeable increasing of fluorescence lifetimes up to maximum value of 6,6 ns for Mg-phthalocyanine. At the same time the values of fluorescence quantum yield rises from 1 % for Hf-phthalocyanine to 56 % for Mg-phthalocyanine. The heavy atom effect has a substantially greater impact on photophysical parameters metallocomplexes of phthalocyanines than influence of attachment out-of-plane ligands.

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具有面外配体的酞菁金属配合物的光物理特性

本工作的目的是合成含有氯离子或二苯甲酰甲烷酸片段的平面外配位大环的Ti-， Zr-， hf -酞菁。在环境温度和液氮温度下，检测并表征了含有金属原子Ti(IV)、Zr(IV)和Hf(IV)的酞菁金属配合物的光谱和光物理参数以及Mg-酞菁和zn -酞菁的光谱特征。观察到hf -酞菁的有效系统间交叉导致非常弱的荧光，并将荧光寿命抑制到小于1ns。中心金属的性质由重Hf(IV)原子转变为较轻的Zr(IV)、Zn(II)、Ti(IV)、Mg(II)原子，导致荧光寿命显著增加，Mg-酞菁的荧光寿命最大值为6,6 ns。同时，荧光量子产率从hf -酞菁的1%提高到mg -酞菁的56%。重原子效应对酞菁金属配合物光物理参数的影响远大于在面外配体的影响。

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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Universal Journal of Physics and Application

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