649720-69-4Relevant academic research and scientific papers
Synthesis and characterisation of Pd(II) complexes with a derivative of aminoazobenzene. Dynamic 1H-NMR study of cyclopalladation reactions in DMF
?uri?, Manda,Babi?, Darko,Marini?, ?eljko,Pa?a-Toli?, Ljiljana,Butkovi?, Vjera,Plavec, Janez,Tu?ek-Bo?i?, Ljerka
, p. 85 - 99 (2003)
Three new Pd(II) complexes, i.e. [PdCl2L]2 (A), PdCl2L2 (B) and [Pd(μ-Cl)(L-H)]2 (C), each with two diethyl [α-(4-benzenazoanilino)-2-hydroxybenzyl] phosphonates (L) bound to either one or two palladium atoms, are synthesized and characterized by elemental analysis, by IR, UV-vis and solid-state 13C-NMR spectra. Complexes B and C are additionally characterized by 1H-,13C- and 31P-NMR and electrospray mass spectrometry (ESMS) studies using dimethylformamide (DMF) as a solvent. In DMF solution adducts A and B undergo spontaneous rearrangement into the cyclopalladated complex C. Dynamic 1H-NMR study of this rearrangement as well as of the reactions of L with PdCl2 and Na2PdCl4 revealed a complex equilibrium in DMF solutions and enabled the formation mechanism of all involved species to be resolved. The complex A is immediately solvolyzed producing two molecules of intermediate M [PdCl2(L)(DMF)]. Complex M was also the first intermediate in the reaction of L with PdCl2. Once present in concentration above 10-5 mol dm-3 M dimerizes very fast into chloro-bridged dimer [PdCl(μ-Cl)(L ]2 (D) which undergoes cyclopalladation and converts into the complex C. The formation of C from the intermediate D is clearly demonstrated by the concentration dependence of the cyclopalladation reaction which has order greater than one. Chloride ions, released by cyclopalladation, react with D by splitting chloro-bridge and binding to metal atoms to produce byproduct [PdCl3(L)]- (T). The same species T are formed in the reaction of L with Na2PdCl4 whereby a chloride ion is replaced by the ligand L. The complex B undergoes similar, but slower, solvolytic reaction producing M and L while further reaction steps are identical as in the solvolysis of A.
