Rare-Earth Chalcogenidotetrachloride Clusters (RE3ECl4, RE = Dy, Gd, Y; E = S, Se, Te): Syntheses and Materials Properties

• Published in: Journal of materials chemistry. C, Materials for optical and electronic devices
• Main Authors: Li, Lei, Xue, Tianjiao, Ding, Yousong, Zheng, Zhiping
• Format: Journal Article
• Language: English
• Published: 06.09.2024
• ISSN: 2050-7526; 2050-7534
• DOI: 10.1039/D4TC02778G

Rare-earth-containing materials featuring rare-earth-chalcogen (RE-E) coordination are of interest as optical and magnetic materials with enhanced properties over their counterparts with O-coordination. Herein, a series of rare-earth chalcogenidotetrachloride complexes of the general formula [η5-Cp*RE(μ-Cl)(THF)]3(μ3-Cl)(μ3-E) (RE3ECl4: RE = Dy, Gd, Y; E = S, Se, Te; Cp* = pentamethylcyclopentadienide) were reported. Except for the identity of the rare-earth and chalcogen elements, these clusters share a common core motif composed of triangularly arranged RE atoms with one chloro ligand bridging each neighboring pair of RE atoms; the trimetallic plane is additionally capped by triply bridging chloro and chalcogenide ligands, one for each kind. Each of the RE atoms is further coordinated with one Cp* and one THF ligand. Comparative magnetic and luminescence studies revealed fine but definitive differences due to the use of different metal and chalcogen elements. Experimental and computational studies have been used to gain insights into the dipolar and super-exchange interactions for the magnetically active Dy- and Gd-based clusters.