Heteronuclear PtII-PdII Dimers Formation through Ligands Subtle Tailoring

IF 6.1 1区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR

Inorganic Chemistry Frontiers Pub Date : 2024-12-15 DOI:10.1039/d4qi02842b

Peng Fan, LeQun Yuan, Yuzhen Zhang

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Abstract

The synthesis of heteronuclear Pt-Pd complexes has long presented a significant challenge, hindering both scientific exploration and industrial applications in electroluminescence and catalysis. This study reports the successful preparation and isolation of two Pt-Pd complexes, designated as 1 and 2, achieved by utilizing distinct cyclometallating C^N ligands. Both complexes were comprehensively characterized, with single crystal X-ray diffraction confirming Pt-Pd distances of 2.8557(5) Å and 2.8548(6) Å for 1 and 2, respectively. Furthermore, these complexes exhibited strong triplet emission at wavelengths of 656 nm and 669 nm, with photoluminescence quantum yields of 40.5% and 48.1% for 1 and 2, respectively. The potential of these complexes in electroluminescent applications was also explored, achieving maximum external quantum efficiencies (EQE_max) of 10.9% for 2 and 10.5% for 1. This inaugural synthesis of phosphorescent heteronuclear Pt-Pd complexes, featuring pronounced metal-metal interactions, not only provides a new synthetic strategy but also paves the way for further application-based studies of heteronuclear Pt-Pd complexes in OLED and photocatalysis.

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通过配体的微妙调整形成异核 PtII-PdII 二聚体

长期以来，异核铂钯配合物的合成一直是一项重大挑战，阻碍了电致发光和催化领域的科学探索和工业应用。本研究报告利用不同的环金属化 C^N 配体，成功制备并分离出两种铂钯配合物，分别命名为 1 和 2。通过单晶 X 射线衍射证实，1 和 2 的铂钯距离分别为 2.8557(5) Å 和 2.8548(6) Å。此外，这些复合物在 656 纳米和 669 纳米波长处显示出强烈的三重发射，1 和 2 的光量子产率分别为 40.5% 和 48.1%。研究人员还探索了这些复合物在电致发光应用中的潜力，结果表明，2 和 1 的最大外部量子效率（EQEmax）分别为 10.9% 和 10.5%。这种首次合成的磷光异核铂钯配合物具有明显的金属-金属相互作用，不仅提供了一种新的合成策略，而且为进一步研究异核铂钯配合物在有机发光二极管和光催化中的应用铺平了道路。

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