Affiliation:
1. College of Science & Engineering James Cook University Townsville 4811 Qld Australia
2. School of Chemistry Monash University Clayton 3800 Australia
Abstract
AbstractDivalent lanthanoid pseudo‐Grignard reagents PhLnBr (Ln=Sm, Eu and Yb) can be easily prepared by the oxidative addition of bromobenzene (PhBr) to lanthanoid metals in tetrahydrofuran (THF). PhLnBr reacts with bulky N,N′‐bis(2,6‐di‐isopropylphenyl)formamidine (DippFormH) to generate LnII complexes, namely [Ln(DippForm)Br(thf)3]2⋅6thf (1; Sm, 2; Eu), and [Yb(DippForm)Br(thf)2]2⋅2thf (3; Yb). Samarium and europium (in 1 and 2) are seven coordinate, whereas ytterbium (in 3) is six coordinate, and all are bromine‐bridged dimers. When PhLnBr reacts with 3,5‐diphenylpyrazole (Ph2pzH), both divalent (5; [Eu(Ph2pz)2(thf)4]) and trivalent (4 a; [Sm(Ph2pz)3(thf)3]⋅3thf, 4 b; [Sm(Ph2pz)3(dme)2]⋅dme) complexes are obtained. In the monomeric compounds 4(a,b), samarium is nine coordinate but europium is eight coordinate in 5. The use of PhLnBr in this work transforms the outcomes from earlier reactions of PhLnI.
Funder
Australian Research Council
Subject
General Chemistry,Catalysis,Organic Chemistry