Theoretical investigation on phosphorescent platinum complexes based on two tetradentate bipyridine ligands

IF 1.6 4区化学 Q4 CHEMISTRY, PHYSICAL

Theoretical Chemistry Accounts Pub Date : 2024-03-25 DOI:10.1007/s00214-024-03107-y

Hadj Mezouar, Houari Brahim, Mostefa Boumediene, Fatima Yahia Cherif, Djebar Hadji, Abdelkrim Guendouzi

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Abstract

In this work, the geometrical, optical, and phosphorescence properties of four complexes with general formula [dRpypy—C(OCH₃)R′—dRpypy]Pt, with Pt-1 (R = F, R′ = methyl), Pt-2 (R = F, R′ = hexyl), Pt-3 (R = methoxy, R′ = methyl) and Pt-4 (R = methoxy, R′ = hexyl), were studied using the B3PW91 and TD-B3PW91 methods. The effect of the double substitution R and R′ on the electronic properties of the four complexes has been investigated. Replacing the two fluorine atoms with the two methoxy groups modifies the shape of the UV–vis spectra and red shift the phosphorescence spectra, while the substituents on the linker R′ do not induce changes in both absorption and phosphorescence spectra. Normal modes involved in the vibronic structure were identified and analyzed using adiabatic Hessian approaches according to the Franck–Condon approximation. The computed phosphorescence wavelengths agree with the observed ones and indicate that the fluorinated complexes exhibit a bright light blue color, while the methoxy complexes display a light spring green color. Further, temperature effects on simulated phosphorescence spectra were studied.

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基于两个四价联吡啶配体的磷光铂配合物的理论研究

在这项工作中，研究了四种通式为[dRpypy-C(OCH3)R′-dRpypy]Pt 的配合物的几何、光学和磷光特性，其中 Pt-1（R = F，R′ = 甲基）、采用 B3PW91 和 TD-B3PW91 方法研究了 Pt-2（R=F，R′=己基）、Pt-3（R=甲氧基，R′=甲基）和 Pt-4（R=甲氧基，R′=己基）。研究了双取代 R 和 R′对四种配合物电子特性的影响。用两个甲氧基取代两个氟原子改变了紫外-可见光谱的形状，并使磷光光谱发生红移，而连接体 R′上的取代基不会引起吸收光谱和磷光光谱的变化。根据弗朗克-康顿近似法，使用绝热赫塞斯方法识别和分析了涉及振动电子结构的正常模式。计算得出的磷光波长与观察到的波长一致，并表明氟化络合物呈现明亮的淡蓝色，而甲氧基络合物则呈现淡淡的春绿色。此外，还研究了温度对模拟磷光光谱的影响。

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来源期刊

Theoretical Chemistry Accounts 化学-物理化学

CiteScore

3.40

自引率

0.00%

发文量

审稿时长

3.8 months

期刊介绍： TCA publishes papers in all fields of theoretical chemistry, computational chemistry, and modeling. Fundamental studies as well as applications are included in the scope. In many cases, theorists and computational chemists have special concerns which reach either across the vertical borders of the special disciplines in chemistry or else across the horizontal borders of structure, spectra, synthesis, and dynamics. TCA is especially interested in papers that impact upon multiple chemical disciplines.