A low-spin Fe(iii) complex with 100-ps ligand-to-metal charge transfer photoluminescence

激发态 光致发光 光化学 化学 基态 过渡金属 材料科学 纳米技术 金属 电荷(物理) 原子物理学 光电子学 物理 冶金 催化作用 量子力学 生物化学
作者
Pavel Chábera,Yizhu Liu,Om Prakash,Erling Thyrhaug,Amal El Nahhas,Alireza Honarfar,Sofia Essén,Lisa A. Fredin,Tobias Harlang,Kasper S. Kjær,Karsten Handrup,Fredric Ericson,H. Tatsuno,Kelsey M. Morgan,Joachim Schnadt,Lennart Häggström,Tore Ericsson,Adam Sobkowiak,Sven Lidin,Ping Huang
出处
期刊:Nature [Nature Portfolio]
卷期号:543 (7647): 695-699 被引量:388
标识
DOI:10.1038/nature21430
摘要

Transition-metal complexes are used as photosensitizers, in light-emitting diodes, for biosensing and in photocatalysis. A key feature in these applications is excitation from the ground state to a charge-transfer state; the long charge-transfer-state lifetimes typical for complexes of ruthenium and other precious metals are often essential to ensure high performance. There is much interest in replacing these scarce elements with Earth-abundant metals, with iron and copper being particularly attractive owing to their low cost and non-toxicity. But despite the exploration of innovative molecular designs, it remains a formidable scientific challenge to access Earth-abundant transition-metal complexes with long-lived charge-transfer excited states. No known iron complexes are considered photoluminescent at room temperature, and their rapid excited-state deactivation precludes their use as photosensitizers. Here we present the iron complex [Fe(btz)3]3+ (where btz is 3,3'-dimethyl-1,1'-bis(p-tolyl)-4,4'-bis(1,2,3-triazol-5-ylidene)), and show that the superior σ-donor and π-acceptor electron properties of the ligand stabilize the excited state sufficiently to realize a long charge-transfer lifetime of 100 picoseconds (ps) and room-temperature photoluminescence. This species is a low-spin Fe(iii) d5 complex, and emission occurs from a long-lived doublet ligand-to-metal charge-transfer (2LMCT) state that is rarely seen for transition-metal complexes. The absence of intersystem crossing, which often gives rise to large excited-state energy losses in transition-metal complexes, enables the observation of spin-allowed emission directly to the ground state and could be exploited as an increased driving force in photochemical reactions on surfaces. These findings suggest that appropriate design strategies can deliver new iron-based materials for use as light emitters and photosensitizers.
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