RT Journal Article ID 326b706801f45f0c A1 Dzhardimalieva, Gulzhian I. A1 Volkova, N. N. A1 Shershnev, Vitaly A. A1 Golubeva, N. D. A1 Burlov, A. S. A1 Popov, L. D. T1 NICKEL CHELATE COMPLEXES AS A SINGLE-SOURCE PRECURSOR OF NANOCOMPOSITES JF Nanoscience and Technology: An International Journal JO NST YR 2017 FD 2017-12-20 VO 8 IS 4 SP 331 OP 346 K1 azomethine chelate complexes K1 thermolysis K1 thermal analysis K1 nickelcontaining nanoparticles K1 nanocomposites AB The thermal behavior of Ni(II) chelates with bi-, tri-, and tetradentate azomethine ligands is examined by the methods of thermal analysis (DSC, TGA, and DTA) and kinetic analysis of weight loss. It is shown that the controlled isothermal thermolysis of azomethine complexes of Ni(II) in a self-generated atmosphere is an efficient method for obtaining nickel-containing nanoparticles. Products of thermal conversions of chelate complexes are characterized by the x-ray phase analysis and SEM. The magnetic properties of the nanocomposites obtained are studied. PB Begell House LK https://www.dl.begellhouse.com/journals/11e12455066dab5d,7567d555746955ea,326b706801f45f0c.html