Theoretical exploration of the photophysical properties of two series of iridium(III) complexes with different main ligand

IF 2.4 3区化学 Q2 CHEMISTRY, INORGANIC & NUCLEAR Polyhedron Pub Date : 2024-08-25 DOI:10.1016/j.poly.2024.117196

Jing Gao , Wancheng Chang , Guangying Chen , Dandan Lv , Jia Guo , Chaoqiong Jiang , Xiaohong Shang , Deming Han

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Abstract

On the basis of the thiophene-containing and furan-containing complexes, we design four complexes by introducing thiazole, isothiazole, oxazole, isoxazole on main ligands. The electronic structure, absorption and emission spectra, charge injection/transport properties, absorption and phosphorescence properties have been investigated by density functional theory (DFT) and time-dependent density functional theory (TDDFT). Introducing S atom to substitute O atom could enhance HOMO energy level, blueshift emission wavelength, decrease $Δ E_{S_{1} {- T}_{1}}$ value. The introduction of N atom on furan ring and thiophene ring could decrease HOMO and LUMO energy levels and energy gaps, blueshift emission wavelength, decrease $Δ E_{S_{1} {- T}_{1}}$ value, enhance electron transport ability. Introducing thiazole could decrease hole injection ability and $Δ E_{S_{1} {- T}_{1}}$ , and then may have higher Φ_PL. Isoxazole and isothiazole groups could facilitate the electron transition from HOMO to LUMO and enhance hole injection ability. Thiazole and isothiazole groups could increase absorption peak strength and hole transport ability.

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具有不同主配体的两个系列铱（III）配合物的光物理特性的理论探索

在含噻吩和含呋喃配合物的基础上，我们在主配体上引入了噻唑、异噻唑、噁唑和异噁唑，设计了四种配合物。通过密度泛函理论（DFT）和时变密度泛函理论（TDDFT）研究了这些配合物的电子结构、吸收和发射光谱、电荷注入/传输特性、吸收和磷光特性。引入 S 原子替代 O 原子可以提高 HOMO 能级，蓝移发射波长，降低 ΔES1- T1 值。在呋喃环和噻吩环上引入 N 原子可降低 HOMO 和 LUMO 能级和能隙，蓝移发射波长，降低 ΔES1- T1 值，增强电子传输能力。引入噻唑可降低空穴注入能力和ΔES1- T1，从而可能具有更高的ΦPL。异噁唑和异噻唑基团可促进电子从 HOMO 向 LUMO 转变，增强空穴注入能力。噻唑和异噻唑基团可提高吸收峰强度和空穴传输能力。

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来源期刊

Polyhedron 化学-晶体学

CiteScore

4.90

自引率

7.70%

发文量

515

审稿时长

2 months

期刊介绍： Polyhedron publishes original, fundamental, experimental and theoretical work of the highest quality in all the major areas of inorganic chemistry. This includes synthetic chemistry, coordination chemistry, organometallic chemistry, bioinorganic chemistry, and solid-state and materials chemistry. Papers should be significant pieces of work, and all new compounds must be appropriately characterized. The inclusion of single-crystal X-ray structural data is strongly encouraged, but papers reporting only the X-ray structure determination of a single compound will usually not be considered. Papers on solid-state or materials chemistry will be expected to have a significant molecular chemistry component (such as the synthesis and characterization of the molecular precursors and/or a systematic study of the use of different precursors or reaction conditions) or demonstrate a cutting-edge application (for example inorganic materials for energy applications). Papers dealing only with stability constants are not considered.