高通量筛选和自动化数据驱动分析结构多样的异双核铱（III）配合物的三重态光物理性质。

High-Throughput Screening and Automated Data-Driven Analysis of the Triplet Photophysical Properties of Structurally Diverse, Heteroleptic Iridium(III) Complexes.

机构信息

Department of Chemistry, Carnegie Mellon University, Pittsburgh, Pennsylvania 15213, United States.

出版信息

J Am Chem Soc. 2021 Jan 20;143(2):1179-1194. doi: 10.1021/jacs.0c12290. Epub 2021 Jan 7.

Abstract

Steady state emission spectra and excited state lifetimes were measured for 1440 distinct heteroleptic [Ir(C^N)(N^N)] complexes prepared via combinatorial parallelized synthesis; 72% of the complexes were found to be luminescent, and the emission maxima of the library spanned the visible spectrum (652-459 nm). Spectral profiles ranged from broad structureless bands to narrow emissions exhibiting vibrational substructure. Measured excited state lifetimes ranged between ∼0.1-14 μs. Automated emission spectral fitting with successive Gaussian functions revealed four distinct measured classes of excited states; in addition to well understood metal-ligand to ligand-charge transfer (MLLCT) and ligand-centered (LC) excited states, our classification also identified photophysical characteristics of less explored mixed MLLCT/LC states. Electronic structure features obtained from DFT calculations performed on a large subset of these Ir(III) chromophores offered clear insights into the excited state properties and allowed the prediction of structure/luminescence relationships in this class of commonly used photocatalysts. Models with high prediction accuracy (R = 0.89) for emission color were developed on the basis of experimental data. Furthermore, different degrees of nuclear reorganization in the excited state were shown to significantly impact emission energy and excited state lifetimes.

摘要

通过组合平行合成制备了 1440 种不同的异双核 [Ir(C^N)(N^N)] 配合物，测量了它们的稳态发射光谱和激发态寿命；其中 72%的配合物具有发光性，该库的发射光谱范围覆盖了可见光谱（652-459nm）。光谱轮廓从宽无结构的带扩展到具有振动亚结构的窄发射。测量的激发态寿命在 0.1-14μs 之间。用连续高斯函数进行自动发射光谱拟合，揭示了四个不同的激发态测量类别；除了众所周知的金属配体到配体电荷转移（MLLCT）和配体中心（LC）激发态外，我们的分类还确定了较少探索的混合 MLLCT/LC 状态的光物理特征。在这一大类常用光催化剂中，对这些 Ir(III) 发色团的一部分进行密度泛函理论（DFT）计算获得的电子结构特征，为激发态性质提供了清晰的认识，并允许预测结构/发光关系。基于实验数据，建立了对发射颜色具有高预测精度（R=0.89）的模型。此外，激发态中不同程度的核重排被证明会显著影响发射能量和激发态寿命。

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高通量筛选和自动化数据驱动分析结构多样的异双核铱（III）配合物的三重态光物理性质。

High-Throughput Screening and Automated Data-Driven Analysis of the Triplet Photophysical Properties of Structurally Diverse, Heteroleptic Iridium(III) Complexes.

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