59170-69-3Relevant academic research and scientific papers
Microwave-assisted synthesis of α-aminophosphine oxides
Tripolszky, Anna,Bálint, Erika,Keglevich, Gy?rgy
, p. 345 - 348 (2019/03/07)
Aminophosphine oxides and bis(phosphinoylmethyl)amines were synthesized by the microwave (MW)-assisted Kabachnik-Fields reaction of primary amines, paraformaldehyde and secondary phosphine oxides. The bisphosphines obtained after deoxygenation of the bis(phosphinoymethyl)amine derivatives were utilized in the synthesis of cyclic transition metal complexes.
Synthesis and use of α-aminophosphine oxides and N,N-bis(phosphinoylmethyl)amines - A study on the related ring platinum complexes
Bálint, Erika,Tripolszky, Anna,Jablonkai, Erzsébet,Karaghiosoff, Konstantin,Czugler, Mátyás,Mucsi, Zoltán,Kollár, László,Pongrácz, Péter,Keglevich, Gy?rgy
, p. 111 - 121 (2015/11/24)
The Kabachnik-Fields condensation was extended using secondary phosphine oxides, such as dibenzylphosphine oxide and bis(4-methylphenyl)phosphine oxide as the P-reactant in reaction with formaldehyde and different primary amines. Besides the α-aminophosphine oxides, the corresponding bisproducts, N,N-bis(phosphinoylmethyl)amines were also synthesized under appropriate conditions. The bis(phosphinoyl)amines were then converted to ring platinum complexes after double deoxygenation. The substituent dependence of the energetics of the complexation reaction using bidentate P-ligands, and the stereostructure of a few complexes were evaluated by B3LYP/6-31G(d,p) calculations using the effective core potential (ECP) basis set (SDD). The crystal structure of a few ring Pt species was studied by X-ray analysis. Catalytic activity of the complexes synthesized was investigated in hydroformylation.
