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Free keywords:
Anhydrous Chlorides, Ionic Liquids, Ionothermal Synthesis, One-Pot Synthesis, Rare Earths, Aluminum chloride, Magnetic materials, Organometallics, Rare earths, Anhydrous chloride, Facile synthesis, Ionothermal synthesis, One-pot synthesis, Organometallic chemistry, Rare-earths, Task-specific ionic liquids, Toxic substances, Upscaling, ]+ catalyst, Ionic liquids
Abstract:
Wide applications of anhydrous rare-earth (RE) trichlorides RECl3 in organometallic chemistry, for the synthesis of optical and magnetic materials, and as catalysts require a facile approach for their synthesis. The known methods use or produce toxic substances, are complicated and have limited reliability and upscaling. It has been shown that task-specific ionic liquids (ILs) can dissolve many metal oxides without special reaction conditions at moderate temperature, making the metals accessible to downstream chemistry. Using imidazolium chloridoaluminate ILs, pure crystalline anhydrous RECl3 (RE=La−Nd, Sm−Dy) can be synthesized in one step from RE oxides in high yield. The Lewis acidic IL acts as solvent and reaction partner. The by-product [Al4O2Cl10]2−, which was detected spectroscopically, remains in solution. The reacted IL can be removed quantitatively by washing. ILs with various imidazolium cations and AlCl3 content and the effect of temperature and reaction time were tested. © 2023 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH.
