Abstract:
The polymer-metal complex on the basis of iron (III) chloride and a polyvinylpyrrolidone (PVP) was synthesized.
The composition of this complex was established by potentiometric and conductometric methods. Titration
curves were constructed and the optimum molar ratio of the reacting components was found
(k = [Fe3+]/[PVP] = 0.24). The obtained experimental data confirm formation of a polymeric complex of iron
where one metal ion is bonded with four compound monolinks of a polyvinylpyrrolidone. Coordination saturation
of metal ion in this complex is realized due to the molecules of solvent or anions of iron salt. On the
basis of the modified Bjerrum’s method constants of stability of a polymeric complex at various values of
ionic strength of solution were calculated on which thermodynamic equilibrium constants of the studied processes
were found. On the basis of thermodynamic constants of stability, using isotherm equations and isobars
of Vant Hoff and Gibbs, changes of Gibbs’ energy (ΔrG0), enthalpy (ΔrH0) and entropy (ΔrS0) were calculated.
Complexing reactions of iron ions with polyvinylpyrrolidone are accompanied by exo-effects what
point to the negative values of an enthalpy change during reaction. The negative values of an entropy change
ΔS at the negative change of an enthalpy ΔH indicated that the studied reaction is possible at rather low temperatures.
It was established that oxygen atoms of polymeric ligands were involved in formation of a coordination
bond with a metal ion. It was established that oxygen atoms of polymeric ligands took part in formation
of a coordination bond with a metal ion. Using IR-spectroscopy and scanning electron microscopy a
structure and morphology of the synthesized complex iron (III)chloride-polyvinylpyrrolidone were investigated.
Results of electron microscopy indicate on formation of polymeric films of a complex with cellular
nonuniform amorphous structure.
