113316-94-2Relevant academic research and scientific papers
Reduction of azobenzene by neodymium(II), dysprosium(II), and thulium(II) diiodides
Katkova, Marina A.,Fukin, Georgy K.,Fagin, Anatolii A.,Bochkarev, Mikhail N.
, p. 218 - 223 (2003)
The diiodides of divalent neodymium (1), dysprosium (2), and thulium (3) LnI2 readily reduce azobenzene under ambient conditions to give binuclear complexes [LnI(THF)2]2(N2Ph2) 2 (Ln=Nd (4)
Reactions of benzonitrile with diiodides of neodymium, dysprosium, and thulium
Balashova,Khoroshenkov,Kusyaev,Eremenko,Aleksandrov,Fukin,Bochkarev
, p. 825 - 829 (2007/10/03)
The reactions of LnI2 (Ln = Nd, Dy, Tm) with benzonitrile are accompanied by disproportionation, resulting in the formation of triiodides LnI3(PhCN)4 and an intractable mixture of monoiodine derivatives LnI(R)R". Hydrolysis of the mixture gives 2,4,6-triphenyl-1,3, 5-tiazine, 2,3,5,6-thetraphenyl-1,4-pyrazine, and 2,4,5-triphenylimidazole. The reaction of dysprosium diiodide with acrylonitrile gives a metal-containing polymer with a molecular weight of 2700. Treatment of the polymer with water results in separation of DyI2(OH)(H2O)x to give metal-free polyacrylonitrile with a molecular weight of 2400.
Specific chemical behavior of NdII and DyII iodides in reactions with aromatic compounds
Bochkarev,Fagin,Khoroshenkov
, p. 1909 - 1914 (2007/10/03)
Benzene, toluene, tert-butylbenzene, or biphenyl virtually do not react with NdI2 (1) or DyI2 (2) in THF at -20°C but appreciably accelerate the reactions of these salts with solvents, resulting in LnI3 and intractable mixtures of products of the general composition [LnI(H)(R)(THF)] (R are fragments of the THF molecule). The same effect is induced by the addition of diphenylmercury or tetraphenyltin to solutions of 1 or 2. Phenol easily oxidizes 1 and 2 to give at 0°C the PhOLnI 2(THF)x complexes (x = 3, 4) in 55-95% yields. At -90°C, iodide 2 is converted into a similar complex PhODyI 2(THF)4, whereas 1 gives a mixture of PhONdI 2(THF)4, (PhO)2NdI(THF)5, NdI 3(THF)3, and [NdI(H)R(THF)]. A plausible pathway of the reactions including the intermediate formation of extremely reactive monovalent lanthanide iodides LnI is discussed.
